KR820000433B1 - Electric clock having automatically-time adjusting means - Google Patents

Abstract

In the electric clock system having automatically-time adjusting means, a correct-time broadcasting sound signal filtered through the band pass filter IC (102) in the automatic gain controller (7) composed of OP amp (101) is applied to the forecasting sound wave filter (L). The applied signal is compared at the forecasting sound comparator(Z) with counter IC(104) and AND gate(2). The output signal of the comparator is applied to the minute indicating encoder counter (212) and to the presettable encoder counter(213). In case the board-casting signal has noise, the broadcasting signal resets the AND gate flip flop(110) and the counter IC(105).

Description

Automatic parallax correction method

1 is an automatic calibration clock system of the present invention.

Figure 2a is a block diagram of the present invention time signal detector.

(b) is a block diagram of the automatic calibration device of the present invention.

3A is a circuit diagram of the present invention detector.

(b) is a circuit diagram of the present invention automatic calibration device.

4 is a waveform diagram of a main portion of time signal detection.

The present invention relates to an automatic parallax correction method in which time signals transmitted from radio and television are received every hour and the correct time is automatically corrected every hour.

The time difference correction method of the present electronic clock resets the display of the number of minutes and stops it until it reaches a predetermined time, and then it becomes 0 second or 59 seconds which can be recognized by the time signal of radio or television. Since the correction method of the time display which releases a reset at the time is used, it waits for a long time until a predetermined time is made, and since artificial correction is performed, time lag and time difference correction were very troublesome.

In addition, since the conventional method performs parallax correction in an artificial manner, a large amount of errors occur in the calibration operation, and thus it cannot be corrected at the correct time.

As described above, the automatic parallax in which the time automatically purified by the time signal of the radio or television (for example, to-to-to-to-woo) is displayed so as to solve the deficiencies in the conventional artificial parallax correction method. The principle of the present invention is described in FIG. 2 as the calibration method.

The present invention is configured to receive a time signal from the radio or television every hour as a repair and maintenance device to make a certain level in the automatic gain controller (a) to send a forecast sound filter (b) and an information sound filter (c). (Information sound filter is omitted to save time)

The forecasting sound filter (b) is configured to filter with a band pass filtering of the time signal frequency N 440Hz, which is sent to the forecasting sound discriminator (d), where the signal of 440Hz is 30 during 200ms. Only when more than 3 (2) counters (ㅁ) continue to open the gate, the on-time signal generated from the on-time signal generator (ㅂ) resets the frequency divider (30). The minute before time was memorized in the automatic calibrator (ㅎ) and when the right-time signal comes in, the time is displayed on the display to display the correct time.

That is, the invention of the invention is that the correct time is automatically displayed by using the time signal detection and automatic calibration method on a digital electronic clock used in general, the time signal detection method receives the time signal of the radio (TV) and the noise between the forecast sound ( When there is noise, a time signal is detected and a time signal is generated when there is no noise between the forecast sound and the forecast sound, and a digital electronic clock detects a pulse every 30 minutes every hour. The time is automatically calibrated by the hourly signal generated by the counter sound filter when there is no noise between the memorized status signal and the time signal generated by the radio (TV) on time. According to the circuit diagram (Fig. 3) for the automatic parallax correction method according to the invention as follows.

In general, radio broadcasting stations standardize the time signal according to the standard time by atomic clock, and the sound signal is transmitted from the radio broadcasting station. On-time signal to send 880HZ on time is to be sent.

Therefore, when the broadcast tone is transmitted from the broadcasting station, the amplifier is amplified and limited by the OP amplifier 101, filtered by the band filter 102 of 440HZ, and the forecast tone of 440HZ is sent to the forecast tone discriminator (ㄹ). A signal other than the signal of 440HZ is grounded through the diode D '.

And the state signal applied to the forecast sound discriminator (d) is configured to connect the AND gate (2) to the IC 104 to operate 30 counts through the end gate (1) to discriminate whether or not this state signal is a forecast sound. It is.

In other words, even if the same 440HZ reception signal is a sound, when the reception signal of the 440HZ is applied more than 30 times, 30 counters of the IC 104 and the AND gate 2 operate to operate with one side of the NAND gate A. The AND gate 1 is applied to the NAND gate 3, and the output of the predictive discriminator D is applied to one side of the NAND gate A with a delay of 68 ms, which is 30 counts. (See Figure 104 104OUT)

On the other side of the NAND gate A, the output signal passes through the AND gate 4 and the buffer 6 before being counted 30 counts of the AND gate 1 (the other side of the AND gate 4 is normally in the high potential state by the nat gate 5. (Flip-flop 106) and its output is applied to the other side of the NAND gate A, so that the NAND gate A is turned off so that the two counters 105 are countered after 200 ms.

The output Q of the flip-flop 106 is applied to one side of the AND gate 7 for 200 ms, and a signal of 60HZ is applied to the other side of the flip-flop 106 through the IC 107 and the AND gate B configured to serve as a counter. After about 200 ms (1/60 × 12) time equal to the forecast sound of 12 counts, it is applied to the reset terminal R of the flip-flop 106 through the ora gate 8, and its output returns the IC 104. After setting, the output of the NAND gate A becomes a high potential state and the two counters 105 start to counter.

As described above, when the forecast sound is applied (200 ms) and the normal sound is applied, the right-time signal is generated through the AND gate 113 and the buffer 117.

Therefore, when the normal tone signal is not applied, that is, when the noise comes in for about 800 ms after 200 ms time or when the tone is only applied once due to the broadcasting station's circumstances, the on-time signal is not generated. The 200 ms delayed output of the IC 107 and the AND gate B is applied to the flip-flop 108 through the AND gate B so that its output is applied to one side of the AND gate 114, and Since the noise is continuously applied through the amplifier 101 after the forecast sound signal is applied to the other side, the output of the AND gate 114 is applied to the reset (R) terminal of the flip-flop 110 through the ora gates 115 and 116. do.

Therefore, the output Q of the flip-flop 110 is applied to the counter 105 to the reset (R) to reset the counter so that the two counters 105 cannot be driven so that no right-angle signal is generated.

Therefore, after 200 ms, the output of the flip-flop 108 is applied to one side of the AND gate 9, and the other side of the AND gate 9 is applied with a status signal of 60HZ to perform 44 count operation. 109) and only the normal forecast sound is applied during the 733ms (1/60 × 44), which is almost 800ms, through the AND gate 9, the AND gate 114 does not conduct and the two counters 105 operate normally. The output Q of the flip-flop 108 applied to one side of 113 and 200 ms delayed and 733 ms delayed to approximately 1 second with the state signal applied to one side of the AND gate 112 when the forecast sound is not present is AND The AND gate 112 conducts by the state signal applied to the ter side of the gate 112 and its output is applied to the other side of the AND gate 113 to generate a right angle signal through the buffer 117. Reset flip-flops 110,108 to gates 115,116,11)

In order to perform the stable operation of the time signal device of the present invention, as shown in FIG. 4, 3.2 seconds after the evo sound is applied, the above-mentioned sound signal is connected to the AND gate 1 through the AND gate 1 to reduce the operation of the time signal device. 4) and the buffer 6 is applied to the flip-flop 110, and its output is applied to one side of the AND gate 10, and the other side of the AND gate 10 is applied a status signal of 60HZ to operate 192 counters. A state signal (1 / 60x192) delayed by 3.2 seconds between the IC 111 and the AND gate D resets the flip flop 110 through the oragate 116, and its output Q is two counters 105. ) So that the AND gate 113 is turned off so that a right angle signal is not generated. (See Fig. 4)

Thus, in the present invention, a stable on-time signal is generated, and the correct time is automatically corrected by an automatic fixing method. An electronic clock representing a time is divided by the oscillation unit 210, and the signal of 1 second divided by the second, minute, hour Encoder Counter, IC 211,212, and Presettable Encoder Counter IC 213 are encoded with B, C, and D time codes, and the LED 215 is operated. However, the automatic calibration method of the present invention stores the state signal in the memory encoder counter 214 every 30 minutes at the minute display encoder counter 212. Is generated at the reset terminals of the ICs 211 and 212 and the preconfigurable counter IC 213 to reset all the times, and the state signals stored in the memory encoder counter 214 are free. Because the coder and settable counter (Presettable encoder) is applied to the (214) B, C, D be the time code, and a precise time code is low coding (Loading) in the LED (215) will be fixed automatically by the on-time time signal.

As described above, the present invention supports the wrong time within ± 30 minutes because the time difference is automatically corrected without having to manually adjust the time every time when the correct time is corrected by receiving the radio wave of a broadcasting station transmitting the time signal. Even if it is always automatically corrected at the correct time, it can be miniaturized if a single IC of the time signal detection and automatic calibration device is possible.

Claims (1)

As described above and shown in the figure, the time signal is applied from the automatic gain controller a constituted by the OP amplifier 101 to the forecast sound filter B of the band filter IC 102 so as to counter the counter IC 104. And the tonal discriminator (d) constituted by the and gates (2), and the output of the forecasted sound classifier (d) consists of the endgates 112, 113 and butter 117 through the counter IC 105. The signal generator (구성) is configured to be applied to the dichotomous encoder counter 211 and the presettable encoder counter 213 connected to the super-display encore counter 211 and the memory-encode counter 214. When the signal is noisy, the time signal is automatically set so that the counter circuit including the flip-flop 108 and the counter IC 109 operates to reset the AND gate 114 flip-flop 110 and the counter IC 105. Parallax correction method.

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