JPH049996A - Electroluminescence display device - Google Patents

Abstract

PURPOSE:To recover the light emission luminance of a segment and to maintain the display quality in a high quality by switching the feed to each segment by the cumulative lighting time of each segment for display. CONSTITUTION:A display means 1 is constituted in a squarish 8-shape by segments (a) - (g) by an electroluminescence element, and by combination of the lighted segments, a numeral is displayed. A driving circuit 3 and a driving circuit 4 generate a driving signal of a first frequency or a first voltage, and a driving signal of a second frequency or a second voltage being higher than a first frequency or a first voltage, respectively. A control circuit 5 executes the control so as to drive each segment (a) - (g) through the driving circuit 3 in the beginning, but when the cumulative lighting time of the segments (a) - (g) reaches a preset value, the feed related to its segment is controlled so as to be switched from the driving circuit 3 to the driving circuit 4.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an electroluminescent display device used in digital watches and the like.

(Prior Art) Display devices have been known in which segments made of, for example, electroluminescent elements, light emitting diodes, liquid crystals, etc. are arranged in a Japanese character shape. This device displays numbers, letters, etc. by combining lit segments.

(Problem to be Solved) In this display device, the degree of lighting is different for each segment. The problem is not so obvious with liquid crystals and light emitting diodes, but because electroluminescent elements have a short service life, the luminance of the emitted light gradually decreases in the order of the segments that are lit more often, and if used for a long time. Over time, the dispersion in luminance between segments increases, resulting in a deterioration in display quality.

SUMMARY OF THE INVENTION Therefore, an object of the present invention is to prevent, over a long period of time, variations in luminance between segments in a segment type electroluminescent display device.

(Means for Solving the Problems) In order to achieve the above object, an electroluminescent display device according to the present invention is composed of segments formed by a plurality of electroluminescent elements, and the combination of the lit segments can be used to display numbers and characters. a clock circuit that measures each cumulative lighting time of each segment; at least one first drive circuit that generates a drive signal of a first frequency or a first voltage; at least one second drive circuit generating a drive signal of a second frequency or a second voltage higher than the first voltage, and a cumulative lighting time of each segment by a clock circuit;
and a control circuit that controls switching of power supply to the segments from the first drive circuit to the second drive circuit.

(Operation) During the initial period, each segment of the display means is driven by the control circuit using a drive signal of the first frequency or the first voltage via the first drive circuit. The cumulative lighting time of each segment is measured by a clock circuit. A comparator circuit compares them with a preset value, and when the cumulative lighting time reaches the preset value, the comparator circuit sends a match signal to the control circuit, and in response, the control circuit switches the power supply for that segment to the first drive circuit. Then, switching control is performed to the second drive circuit. Thereby, the segment is driven with a drive signal having a second frequency or a second voltage higher than the first frequency or first voltage.

If the segment whose cumulative lighting time has reached the preset value is driven by the first drive circuit, the luminance will decrease, but by switching the drive circuit for that segment to the second drive circuit, the luminance will be restored. This makes it possible to prevent variations in luminance between segments.

(Example) An embodiment of the present invention will be described below with reference to the drawings.

As shown in FIG. 3, the display means 1 is constructed in the shape of a Japanese character by segments a to H formed by a plurality of electroluminescent elements. The display means 1 displays numbers based on the combination of the lit segments. For example, as shown in the figure, if segments c and g are lit, the number 1 is displayed. This display means l is connected to a drive circuit shown in the first diagram, which drives the clock circuit 2. First drive circuit 3.
Second drive circuit 4. It is composed of a control circuit 5 and a comparison circuit 6.

The first drive circuit 3 is configured to generate a drive signal of a standard frequency (first frequency) or voltage (first voltage). On the other hand, the second drive circuit is configured to generate a drive signal with a second frequency or a second voltage higher than the first frequency or first voltage. Therefore, when the segments a to g of the display means 1 are driven via the second drive circuit 4, the luminance of the light emitted by them is higher than when they are driven via the first drive circuit 3. This is because electroluminescent elements become brighter as the frequency or voltage of the driving signal increases.

The clock circuit 2 controls each segment meg via the control circuit 5.
This is to measure the cumulative lighting time for each time.

The comparison circuit 6 is for comparing the cumulative lighting time of each segment a to H measured by the clock circuit 2 with a preset value, and generates a match signal when the cumulative lighting time matches the preset value. It has become. The preset value corresponds to the time required for the luminance to drop to such an extent that it becomes a practical problem when each of the segments a to g is driven via the first drive circuit 3.

During the initial period, the control circuit 5 controls each segment a to g of the display means 1 to be driven via the first drive circuit 3, but the cumulative lighting time of segments a to H reaches a preset value. Then, the power supply for that segment is
This controls switching from the drive circuit 3 to the second drive circuit 4.

When the numbers θ to 9 are represented by the day-shaped display means 1,
The lighting frequency differs depending on the position of each segment a to g as shown below.

FIG. 4 is a table in which lighting of each segment a-H is indicated by an O mark when each number 0 to 9 is represented by the display means 1.

As is clear from this table, when the numbers 0 to 9 are displayed periodically, the lighting frequency differs depending on each segment.

FIG. 5 shows an example in which four segment type display means 1 are arranged in a horizontal direction to constitute a digital clock with a 12-hour display. Display means 10 and 11 respectively display the tens and ones digits of the hour, and display means 12 and 13 display the tens and ones digits of the minute, respectively. 2
7 minutes" is displayed.

Each segment 10c, 10g, lla to 11g, 12a to 12g when the display means 10.11.12.13 displays the time for 12 hours from 12:00 θ,
The reason why there is a difference in cumulative lighting time for each of 13a to 13g will be explained.

First, the display means 13 displays 6 numbers each from θ to 9 in one hour.
72 times in 12 hours. Since one display time is one minute, the display means 13 displays the numbers θ to 9 for 72 minutes each in 12 hours.

In addition, the display means 12 displays numbers θ to 5 in 12 hours, respectively.
Display 12 times. Since one display time is 10 minutes, the display means 12 displays the numbers θ to 5 for 2 hours each in 12 hours.

The numbers displayed in 12 hours by the display means 10.11 for displaying the time are 12.1, 2°..., 10.
It becomes 11.

Therefore, the display means 11 displays the numbers 0.3 to 9 once and the number 1.2 twice in 12 hours. Since the display time for one time is 1 hour, the display means 11 shows the number 0 for 12 hours.
．． Numbers 3 to 9 are each displayed for 1 hour, and numbers 1 and 2 are each displayed for 2 hours.

Further, the display means 10 displays the number 1 three times in 12 hours.

Since one display time is one hour, the display means 10 is 12
Displays the number 1 for 3 hours.

Through the above steps, the cumulative lighting time of each segment can be calculated.

For example, for segment 13H, from FIG.
When displaying numbers 4 to 9, each light is lit for 72 minutes. Therefore, it is 722×10 −504 minutes, and the light is on for 8 hours and 24 minutes.

When calculating the other segments in the same way, the longest cumulative lighting time is segment 13g, which has a duration of 10 hours and 48 minutes, and the shortest cumulative lighting time is segments 10c and 10g, both of which have a duration of 3. It's time.

When the time is displayed over a long period of time using the fifth digital clock, each display means displays the numbers θ to 9 for the above-mentioned time every 12 hours, and the lighting time of each segment is accumulated.
The difference in cumulative lighting time between segments becomes even larger, and the brightness varies.

Therefore, in the present invention, as shown in FIGS. 1 and 2, during the initial period, the control circuit 5 drives each segment a to g of the display means 1 with a drive signal of a first frequency or a first voltage via the first drive circuit 3. Numbers are represented by the combination of segments that are driven and lit. The control circuit 5 causes the clock circuit 2 to control each segment a.
-Measure the cumulative lighting time of H. The comparison circuit 6 compares this cumulative lighting time with a preset value, and when the cumulative lighting time reaches the preset value, the comparison circuit 6 sends a match signal to the control circuit 5, and in response, the control circuit 5 The power is supplied from the first drive circuit 3 to the second drive circuit 4.
Switch control to.

As a result, the segment whose cumulative lighting time has reached the preset value is driven from the first frequency or first voltage to the second frequency or second voltage, and the reduced luminance is restored. For segments whose cumulative lighting time has reached the preset value, there will be a large difference in luminance compared to segments whose cumulative lighting time has not reached the preset value, and the display quality may deteriorate. By switching the circuit that drives the segment that has reached the value to the second drive circuit 4, the luminance of that segment is restored, and this prevents variations in luminance between segments that are frequently lit and segments that are lit less frequently. can be prevented for a long period of time, and the display quality of the display device can be maintained at high quality for a long time.

Although the digital watch according to this embodiment does not have a seconds display section, two day-shaped display devices may be added to display the seconds. At this time, the second display means can calculate the display time of the numbers 0 to 9 and the lighting time of each segment when displaying the time in the same manner as described above. Note that the segments are not limited to those configured in a Japanese character shape.

Further, the display means is not limited to displaying numbers, but may display characters or the like.

Also number 1. The number of second drive circuits is not limited to one as in this embodiment, but a plurality of them may be provided and one of them may be used as appropriate.

(Effects) According to the present invention, the control circuit switches the power supply to each segment from the first drive circuit to the second drive circuit according to the accumulated lighting time of each segment of the display means, so that it can be used for a long period of time. It is possible to restore the luminance of the segments whose luminance has decreased between segments, and as a result, it is possible to prevent variations in luminance between segments over a long period of time, and it is possible to maintain the display quality of the display device at high quality for a long time. .

[Brief explanation of the drawing]

The drawings show one embodiment of the present invention; FIG. 1 is a block diagram, FIG. 2 is a flowchart showing the operation, FIG. 3 is a plan view of the display means, and FIG. 4 shows the frequency of use of each segment. FIG. 5 is a plan view showing the display section of the digital watch. 1.10, 11, 12.13...Display means, 2...Clock circuit, 3...First drive circuit, 4...Second drive circuit, 5...Control circuit, a-g, 10c , 10g, lla ~ l1g. 12a-12g, 13a-13g...Segments. Ward size 0cv1+r+ Ichino ()

Claims (2)

[Claims] (1) A display means that is composed of segments formed by a plurality of electroluminescent elements and displays numbers, characters, etc. by a combination of the lit segments; and a clock circuit that measures the cumulative lighting time of each segment; at least one first drive circuit that generates a drive signal of a first frequency or a first voltage;
At least one second drive circuit that generates a drive signal of a second voltage higher than the voltage, and a cumulative lighting time of each segment by the clock circuit, so that power is supplied to the segment from the first drive circuit to the first drive circuit. An electroluminescent display device comprising: a control circuit for controlling switching between two drive circuits. (2) The electroluminescent display device according to claim 1, wherein the segment is configured in a Japanese character shape.