KR810000551Y1 - Alarm electronic watch - Google Patents

Abstract

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Description

Alarm electronic watch

1 is a block diagram showing an embodiment of the present invention.

2 is a circuit diagram showing a specific example of FIG.

The present invention is a repeating alarm that always sends an alarm when the set time is reached, and a single alarm that sends an alarm once and then does not send an alarm afterwards has one function as a set time memory circuit. It relates to a cancer electronic clock.

Conventional alarm clocks can always be set when the set time is reached, or because only a single alarm is used, they cannot be set as you think. In some cases, it is necessary to provide a single memory circuit and a repeating-alarm memory circuit in separate channels, resulting in a complicated circuit. The present invention has been studied to overcome these drawbacks.

1 shows a block diagram as one embodiment of an alarm clock of the present invention. A signal having a relatively high frequency generated by the oscillation circuit 1 using the crystal oscillation automatic enters the division circuit 2 and is divided into a 1 Hz signal, which is input to the second counter 3, And the output is input to the minute counter 4 to count the minutes, and the output is input to the hour counter 5 to count the time. The minute counter 6 and the hour counter 7 for setting the set time are selected by the signals of the control set circuit 12, and the minute counter 6 and the hour counter respectively through the AND gates 20 and 21, respectively. A 1 Hz signal is input to (7) to set the set time. The minute counter 4 of the time counter, the hour counter 5, the minute counter 6 of the set time, and the BCD signal of the hour counter 7 are input to the matching circuit 8 to detect whether or not they match. The coincidence signal is input to the buzzer driving circuit to drive the buzzer. On the other hand, the BCD signals of the minute counters (4) and (6) hour counters (5) and (7) are input to the switch circuit 9 together to control whether the time display or the set time is displayed, thereby selecting the set circuit 12. It is selected by the control signal and input to the decoder and driver circuit 10 to display the time or set time by the display device.

The coincidence signal is input to the single-arm and repetitive arm selection circuit 13, and its output signal is input together to the reset terminal input of the minute counter 6 and the hour counter 7, which are memory circuits of the set time, and then freeze. In the case of an arm, the contents of the set time are cleared by the reset signal. 2 is a circuit diagram for more specifically indicating the present invention. When the contents of the time counters 4 and 5 and the set time counters 6 and 7 coincide with each other, the output of the NOR circuit 30 is in a state of “1” and a pulse is formed using the 1 Hz signal as a control signal. The circuit 15 (2) consists of a transmission gate, three inverters, and one end circuit) to form a short pulse, which is input to a group of end gates of the AND gate 31. The other input is the Q terminal of the T flip-flop circuit 16 as an input. Since the output state of Q can always be changed by the single- and repeated arm switching switch SW ₁ , for example, when the output state of Q is "1", the output of the AND gate 31 is the output of the pulse shaping circuit 15. The coincidence signal is output and the contents of the set time are reset to 00:00, and the alarm is not transmitted after that.

When the output Q is in the zero state, since the coincidence signal is not output to the AND gate 31, since the set time counter is not reset, the alarm is sent again when the set time comes again. Thus, by operating a one-shot, repeatable alignment cancer selection switch SW ₁ it is possible for single-shot, randomly select a repeat.

The output Q of the single-shot and repetition selection circuit composed of the T-type flip-flop 16 is input to the drive circuit 17 for specifying the display of single-shot and repetition. In other words, when the liquid crystal is used as the display device, a 32 Hz signal is input to the common electrode 34 through the frequency dividing circuit 2. Here, when the output Q of the T flip-flop is "1", that is, a single shot, a 32 Hz signal is output to the AND gate 32 and the output of the NOR circuit 33 is a signal inverting the signal of the common electrode 34. Is output so that the display segment S ₁ of the single arm is displayed, while the display S ₂ of the repeating arm is not displayed because it is in phase with the common electrode 34 and the signal.

Next, when the output Q of the T-type flip-flop circuit is in the state of "0", it is inverted by the inverter 35 and input to the AND gate 36. In this case, the repeating alarm display S ₄ is displayed on the contrary. Since the signal of the common electrode 34 and the voltage in phase are output to the align display S ₁ , it is not displayed. The coincidence signal is inputted to the flip-flop circuit NOR 40 of the buzzer driving circuit 14, and the output of the NOR circuit 41 is set to a state of "1" to pass the transistor 43 through the NAND circuit 42. The buzzer 15 is driven in accordance with the drive frequency of the counter 3. After a certain time, for example, 10 seconds after the coincidence signal comes out, the signal from the second counter 3 is output once every 10 seconds by the pulse shaping circuit 17 so that a narrow pulse becomes the input of the NOR circuit 41. Therefore, the buzzer is reset and the driving of the buzzer is stopped.

The present invention, as described above, is an electronic clock with a feature that can be selected arbitrarily single-arm and repetitive alarm in one channel.

Claims (1)

The alarm circuit has a counter circuit for counting the time and a memory circuit for a time set for setting the time for generating an alarm, and when the set time is reached, the alarm signal indicates that the set time has been reached by the color or flashing of the speaker or other display. The selection of a single set or a repetitive set in a clock is an electronic clock, characterized in that it is selected by an externally installed switch.