JPS5815937Y2 - clock circuit - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION The present invention relates to improvements in electronic timepiece devices, and particularly to a circuit for determining the size of the month and the month of February.

This type of clock device is also used in various control devices.

For example, when controlling a flood gate at a predetermined date, time, minute and second, or when an abnormality occurs in a device to be monitored,
This is necessary when automatically recording and simultaneously recording the time.

Therefore, the month, day, hour, minute, second, etc. are considered necessary as the output of this device, but depending on the case, only the necessary outputs may be used.

As such a device, the one whose front diagram is shown in Fig. 1 has been commonly used in the past.
The output of is divided by the counter C0UI and the second output sec
This is further frequency-divided by the counter C0U2 to obtain the divided output MIN, and a similar counter C0U3,
Using C0U4 and C0U3, the hourly output HOU, daily output DAT, and monthly output MON are obtained.

However, depending on the size of the month, there are 30 or 31 days.
There is a difference in days, especially February ends on the 28th, so control C0U4 according to the number of days in each month.
It is necessary to control the maximum number of days to be counted according to the month and the size of the month.

Therefore, the output of the month counting circuit, that is, C0U3, is inputted to the size discrimination circuit MDD1 and the February discrimination circuit MDD2,
Comparator C
After doing this with OM, the output is C0U4
and adds +1 to C0U3.

FIG. 2 is a circuit diagram of the conventional large/small discrimination circuit MDD1i (L/L/L/NOR game) G1. G2゜G3
, G4, and inverters INVI and INV2 K, and its human power is the output of the binary coded decimal code of C0U3, that is, the positive output and negative output of the 1's digit MON1, MONI=1, MONI) 1, and the 8's digit MON.
8. Positive output of 10th digit MON10 MON8=1, M
If ON10 is set to 1, the logical value ``'1''2 is obtained as the output of INV2 if the month is small.

The detection in February uses the circuit MDD2 shown in Figure 3.
R gate G5. G6, and inverter INV3, I
It is composed of NV4, and its inputs are the output of C0U3 similar to that shown in FIG. 2, that is, MON1=LMON2=1, M
ON4=1, MON8=1°MONl0=1 (・, If it is February, L・ru is assumed to obtain 1” as the output of G6.

That is, if a circuit that generates a binary coded decimal code is used as C0U3, the output of each digit will be as shown in Figure 5 depending on the month, so the 1 digit MON1 shown in the leftmost column will be output as shown in Figure 5. However, if you look at the focus outputs of the 10's digit MONjO, the logical values will differ depending on the month, so by feeding these outputs to the circuits shown in Figures 2 and 3 above, you can determine the size of the month and the It is possible to determine the month of February.

As for COM, the output of C0U4 is extracted using a predetermined gate circuit (from the 28th to the maximum 31st day), and the days of February are extracted from the above-mentioned February detection output and the 28th output. The counting is completed, and the counting of the days of the month of the month is ended based on the detection output of the month of the month and the output of the 30th day.

Also, in a large month, the day count for that month is terminated by the 3■ day output and the inverted output of the size discrimination circuit.

However, such conventional MDDI and MDD2 circuit configurations require a large number of gate circuits and inverters (inversion circuits), and furthermore, the size discrimination and February detection are performed by separate circuits, making the circuit configuration complicated. At the same time, the manufacturing cost of the circuit increases, the required power supply increases, etc., and the reliability of the circuit may decrease, especially since the number of parts is large.

Therefore, the present invention aims to improve the above-mentioned drawbacks of the prior art, and its purpose is to provide a timepiece circuit with a small number of parts, a simple circuit configuration, reduced manufacturing costs, and high reliability.

The feature of the present invention is that it employs an exclusive OR circuit to determine the size of the month and the month of February using a simple circuit.

The four aspects will be explained below.

FIG. 4A is a circuit diagram showing one embodiment of the present invention, and the function of this circuit is as shown in FIG.
, MONIO) is input, and the input is 1.3, MONIO).
An output is generated at output terminal A when the input is 5, 7, 8, 10, and 12 (that is, a large month), and an output is generated at output terminal B when the input is 2 (that is, February).

In the same figure, G11 is an OR gate, and G12 is an Exc gate.
l us ive OR gate (exclusive OR), G1
3 is a NOR gate, INV is an inverter (inversion circuit), and the output of C0U3 mentioned above, that is, the signal with the logical value shown in FIG. te℃・ru.

Exclusive OR G12 produces an output when its two inputs are 0, 1 or 1, 0.

Therefore, referring to Figure 5, 1°3.5 of the large moon
, in July, MON=1 is It 1jj as shown in MONl in Figure 5, and further MON
8. If MONlo is in these months, all of them are O”
Therefore, the output of G11 becomes '0''.

Therefore, the inputs of G12 are 1, 0, and its output is '
1''.

Also, in Figure 5, the big moons are August, October, and December.
In this case, all the 1s digits MONI are ttO”, and the 8th and 10s digits MON8 and MONIO are (・
Then, one of L and one side becomes 11,''.

Therefore, the output of 011 will be '1''' in these months, and the input of G12 will be 0°1, so its output will be °1'
” is.

In this way, when the moon is large and the temperature is ℃, the output A of G12 is ℃1''
The size of the moon can then be determined.

Then MON2 = 1. If we pay attention to MON4=1, in the case of February in Figure 5, the 2nd digit MON2 is E9j,
The fourth digit MON4 is tt Opp, and the output of G12 at this time is "O".

Therefore, all inputs of G13 are 1 (O"), and therefore its output is "1".

In this way, the present invention (Exc 1 us i
By using the veOR game) G12, the configuration is extremely simplified, and in addition, the same circuit can be used to determine the month of February, making it possible to reduce costs, reduce power supply requirements, and improve reliability all at once. .

Furthermore, when the pure binary code shown in FIG. 6 is generated as the output of U5, the circuit shown in FIG. 4A can be used almost as is.

However, in this case, the input of MONIO-1 and MON2=1 is unnecessary, and G11 and INV are omitted.
It is also possible to directly give ON8=1 as an input to G12.

Therefore, the circuit configuration is as shown in FIG. 4B.

In addition, the same effect can be obtained even if an exclusive OR gate is used instead of an OR gate for the backward and negative signs in FIG. 5 or 6.

Further, as long as the circuit has input conditions similar to those of the circuit shown in FIG. 4, the same purpose can be achieved by arbitrarily configuring the circuit using combinations of various logic circuits.

As described above, according to the present invention, since the circuit configuration is simplified, assembly is facilitated, manufacturing costs and adjustment man-hours are reduced, and the required power supply is reduced and high reliability is achieved.

Therefore, it is extremely effective for use in clock devices that are required for various control devices, etc.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of a conventional clock circuit, FIGS. 2 and 3 are block diagrams of a circuit for determining the size of the moon and a circuit for determining February in FIG. 1, and FIGS. The block diagrams of the clock circuit according to the present invention, FIGS. 5 and 6, show the logical values of the month in binary coded decimal and binary numbers. O8C...Oscillator, C0U1~C0U3...
... Counter, MDDI ... Size discrimination circuit,
MDD2...February discrimination circuit, COM...
・Comparator, G11...OR gate, G12...
...Exclusive OR circuit, G13...NOR
Gate, INV...Inverter.

Claims (1)

[Scope of utility model registration request] At least 10 binary codes are counted by counting pulse signals of a constant period.
In a clock circuit that has a month display circuit that displays the month in base numbers, the output of the 8th digit and the 10th digit of the circuit is manually operated, and the output of the ■ digit and the output of the OR circuit. It has an exclusive OR circuit which takes as inputs and gives an output A, and a NOR circuit which takes the output A, the inversion of the 2nd digit output, and the 4th digit output as inputs and gives an output BL. A clock circuit characterized by displaying the month of February by output B.