JPS5832675B2 - electronic clock - Google Patents

Description

[Detailed description of the invention] The present invention relates to an electronic timepiece with a battery life end warning function.

Conventionally, there are various electronic watches on the market that detect a drop in battery voltage and notify the end of battery life.

Since the circuit for detecting the drop in battery voltage is provided within the IC, there are variations in parameters, and external resistance must be used to adjust the circuit.

To determine the resistance of this external device, at a certain voltage, the external device changes the resistance one by one to see the resistance at which the battery voltage drop detection circuit operates. I was watching it while watching it, or I was watching it using the output pad of the battery voltage drop detection circuit.

Therefore, there were disadvantages in that it took time to select a resistor and the IC became large.

The present invention relates to an electronic timepiece with a battery life end warning that uses a dual-purpose pad to adjust the external resistance.

A detailed description will be given below based on the drawings.

FIG. 1 is a circuit block diagram of an embodiment using the present invention.

Create the reference frequency signal necessary for the clock using the oscillation frequency divider circuit 1,
The frequency is divided into an IHz signal and output to the second counter 2 at the next stage.

The second counter 2 counts the human-powered IH2 signal and outputs a one-minute value.

The minute counter 3 counts the 1-minute value manually and outputs a 1-hour signal.

The hour counter 4 counts the human-powered one hour signal and outputs one hour signal.

The day counter 5 counts each manually-powered number up to the 31st.

The decoder/driver 6 converts the contents of each of the second counter 2, minute counter 3, hour counter 4, and day counter 5 into one suitable for displaying numbers, etc., and transmits the converted contents to the display T at the next stage.

The display 7 uses a light emitting diode, electrochromic, liquid crystal, etc., and displays the time and the like.

The battery voltage detection circuit 8 is periodically sampled with a signal that is a combination of signals from the frequency dividing stage of the oscillation frequency dividing circuit 1 (for example, a signal combining IH2 and 128H2 with a pulse width of 3.9 m5ec and a pulse period of 1 second). The battery voltage is measured at the timing of the signal, and the result is manually input to the decoder/driver 6, making the display different from the normal format.

The test circuit 9 is a circuit that arbitrarily generates a signal that activates the battery voltage detection circuit 8 regardless of the above-mentioned sampling signal.

Figure 2 depicts the battery voltage detection circuit in detail.
FIG. 3 is a timing chart of the human output signal.

A sampling signal that periodically activates the battery voltage detection circuit 8 described above is input to the terminal 18, and a signal is input to the terminal 19.
Similarly, as described above, the signal output from the test circuit 9 is manually input in order to cause the battery voltage detection circuit 8 to function arbitrarily regardless of the sampling signal.

The signals at terminals 18 and 19 enter the input terminal of battery voltage detection section 16 via OR gate 17.

The battery voltage detection section 16 measures the voltage of the battery 15 while the signal from the input section I N "H" is input manually.

The external resistor 14 determines whether a warning is issued when the battery voltage reaches a certain level, and it can also be built into the IC.

The relationship between the signal at the output terminal 20 of the battery voltage detector 16 and the output signal from the input terminal, that is, the OR gate 17, is as shown in FIG. In other words, as shown by the waveform 18.20 shown in the upper part of Fig. 3, a signal u L jj appears at the output terminal 20 when the battery voltage is OK (region marked ■ in Fig. 3), and the battery When the voltage drops (region 3 in FIG. 3), a signal of ``H'' appears only while the sampling signal is ``H''.

When the test circuit 9 is turned on, a signal @(Hjj is output, and the signal 19 shown at the bottom of FIG. 3 is output to the battery voltage detection section 16.

At that time, the battery voltage detection section 1
A uH'' signal appears at the output 20 only when the human power section 6 is at H'' and the battery voltage is low.

When warning about a drop in battery voltage with a display, it may be difficult to notice that °'H'' is output only during the sampling signal. ).

FIG. 4 shows a circuit in which a pad in the IC used for display output is also used as the output of the battery voltage detection circuit 8.

The terminal 21 receives a signal from a decoder or the like, and the terminal 22 receives a display driving signal (for example, 32 Hz).

The signal at the terminal 2L22 is input as it is and the other side is inputted to the AND-NOR gate 25 via the inverter 23, 24, and the output terminal 31 of the AND-NOR gate 125 is connected to the transmission gate and the inverter. The switching circuit 26 is manually operated.

Terminal 27 is another input terminal of switching circuit 26, and the output of battery voltage detection circuit 8 described above is connected here.

The signals at these two input terminals 31 and 27 are connected to the test circuit 9.
It is selectively outputted by a signal at a terminal 30 connected to the output of.

The signal appearing at the output terminal 32 of the switching circuit 26 reaches the pad 29 at tC via the display driving buffer 28.

In normal use, test circuit 9 is OFF, so
The terminal 30 becomes Ljj, and the signal from the AND-NOR gate 25 appears at the output terminal 32 of the switching circuit 26.

Therefore, a normal display drive signal appears on the IC pad 29.

When the test circuit 9 is turned on and the external resistor 14 is adjusted or the operation of the battery voltage detector 16 is checked, a 'H' signal is applied to the terminal 30 and the output terminal 32 of the switching circuit 26 , the signal at the terminal 27, that is, the output signal from the battery voltage detection section 8 appears.

Therefore, looking at the IC pad 29, adjustment of the external resistor 14 and operation check of the battery voltage detection section 16 can be easily and quickly performed.

As described above, by using the present invention, there is no need to add an IC pad, and it is possible to easily check the operation of the battery voltage detection section and adjust the external resistance. It has the advantage of not costing much.

[Brief explanation of the drawing]

FIG. 1 is a circuit block diagram of an embodiment using the present invention. 1...Oscillation frequency divider circuit, 2...Second counter, 3...Minute counter, 4...Hour counter, 5...Mountain counter , 6...Decoder/driver 7...Display body, 8...
Battery voltage detection circuit, 9...Test circuit. FIG. 2 is a detailed diagram of the battery voltage detection circuit. 16...Battery voltage detection section. FIG. 3 is a timing chart of input/output signals in FIG. 2. FIG. 4 shows a display drive circuit when the pad in the IC of the present invention is also used as the output of the battery voltage detection circuit. 29...IC pad.

Claims (1)

[Claims] 1. In an electronic watch that is equipped with a battery voltage detection circuit that detects a predetermined battery voltage and has a function of notifying the end of battery life, the battery voltage detection circuit includes a resistor that can be adjusted to the predetermined battery voltage level; A test circuit for setting the operating state of the battery voltage detection circuit is connected to the battery voltage detection circuit, and an output signal of the test circuit outputs the output contents of the battery voltage detection circuit to a pad in the IC, and the resistor electronic pane tag that allows the value of to be set to a predetermined value