JPH075499A - Electrochromic display device - Google Patents

Abstract

PURPOSE:To facilitate production and to decrease the number of drivers and number of wirings to be used even if plural segments are formed within one cell. CONSTITUTION:This electrochromic display device is composed of a display electrode 10 consisting of the plurals segments 10a to 10c which are composed of electrodes 4, 4, 4 and EC materials 6, 6, 6 formed independently from each other within the one cell and a counter electrode 11 composed of a single electrode 5 formed to face this display electrode and an EC material 7 having the same reduction or oxidation charge quantity as the oxidation or reduction charge quantity of the display electrode 10. An electrolyte 3 is sealed between the display electrode 10 and the counter electrode 11. All the segments 10a to 10c of the display electrode 10 are once decolored or colored and are then shifted to the prescribed display state at the time of changing the display state.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electrochromic display device which causes a reversible coloring / decoloring reaction by an electrochemical reaction. More specifically, the present invention relates to an electrochromic display device having a plurality of segments (pixels) driven independently of each other in one cell.

[0002]

2. Description of the Related Art An electrochromic display device having a plurality of segments which can be driven independently of each other in one cell and which constitutes one display pole is disclosed in, for example, Japanese Unexamined Patent Publication No. 2-308228. It is known. This electrochromic display device
As shown in FIG. 2, a plurality of segments 101a, 101 are formed separately from each other in one cell 108.
b and 101c, and a plurality of segments 1 for causing a reaction of the display electrode 101 that is completely opposite to the reaction of the display electrode 101 at a position opposite to the display electrode 101.
A counter electrode 102 composed of 02a, 102b, 102c;
The electrolyte 103 is filled between them. The display electrode 101 and the counter electrode 102 are transparent electrodes (ITO) formed on the substrates 104 and 105, respectively.
It is composed of 106 and EC material 107. Here, the counter electrode 102 is generally formed in substantially the same shape as the display electrode 101 and arranged so as to face each other. Therefore, when one display is composed of a plurality of segments, each segment 101a, 10
The segments 102a, 102b, and 102c of the counter electrode 102 having the same shape are formed for each of 1b and 101c. The segments 101a, 102a, 101b, 102b, 101c, which form a pair of the indicator pole 101 and the counter pole 102,
Electric charges are applied between 102c and controlled independently for each segment.

In the case of such an electrochromic display device that changes the display state for each segment, for example,
When 7 segments are arranged in the shape of "day" and the numbers from "0" to "9" are displayed, when the adjacent segments are in the opposite display state, between the display pole and the opposite pole Instead of causing a redox reaction, a reaction occurs between adjacent display electrodes. Therefore, for example, by applying a reverse charge only between the segment in the colored state and the opposing electrode side segment forming a pair with the segment to cause the decoloring reaction, all the segments of the display electrode are temporarily decolorized. Then, it has been proposed to react only the display electrode segment that needs to be colored with the counter electrode (JP-A-2-308228).
issue). According to this ECD, it is possible to prevent reaction between segments of the display electrode and prevent deterioration of the EC material.

[0004]

However, in order to cause a reaction opposite to that of the display electrode on the counter electrode side, two transistors as drivers for each pixel (segment) are also provided on the counter electrode side. Will be needed. For this reason,
When a plurality of segments are formed in one cell like a 7-segment display element, a large number of transistors are required, resulting in high cost and complicated connection wiring between each segment and each driver transistor. Have the problem of In addition, even when manufacturing the counter electrode that is not directly related to the display, it involves complicated steps such as patterning and etching for obtaining a plurality of segments as in the case of the display electrode, which complicates the working process. It also increases the cost.

SUMMARY OF THE INVENTION It is an object of the present invention to provide an electrochromic display device which can be manufactured easily and can be used in a simple driver and wiring, despite forming a plurality of segments in one cell. .

[0006]

To achieve the above object, the present invention provides a display electrode comprising a plurality of segments each composed of an electrode and an EC material which are formed independently of each other in one cell. The electrode and E which are formed to face the display electrode
It has a counter electrode composed of C material and a cell structure in which an electrolyte is enclosed between the display electrode and the counter electrode. When changing the display state, all the segments of the display electrode are once erased or colored. In the electrochromic display device that shifts from the display state to the predetermined display state, the counter electrode has a common electrode structure, and the EC material has the same amount of reduced or oxidized charge as the total amount of oxidized or reduced charge of the display electrode. I have to.

In the electrochromic display device of the present invention, it is preferable that the amount of oxidation or reduction charge per unit area of the counter electrode be larger than that of the display electrode.

[0008]

Therefore, in order to change the display state, for example, the charge for decoloring is individually applied to the segment of the colored portion of the display electrode, while the charge causing the opposite reaction is applied to the common counter electrode. When applied to the whole, a reaction occurs between the display electrode side segment to which the electric charge is applied and the portion of the counter electrode facing the display electrode side segment. Then, the reaction that occurs in the portion of the counter electrode facing the display electrode side segment is
It diffuses around it and advances the reaction to complete the reaction. After that, by similarly applying a charge for a color forming reaction to the segment of the display electrode and the common counter electrode which are to be colored, a color generating action is caused between the target segment and a part of the counter electrode. .

Further, when the amount of oxidation (reduction) charge per unit area of the counter electrode is set to be larger than that of the display electrode, the same as when the counter electrode is divided corresponding to the display electrode. The reaction is performed smoothly at the speed of.

[0010]

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS The structure of the present invention will be described in detail below with reference to the embodiments shown in the drawings.

FIG. 1 shows an embodiment of the electrochromic display device (abbreviated as ECD) of the present invention. This EC
D has a cell structure that seals the electrolyte 3 between the substrates 1 and 2 by adhering the edges of the two substrates 1 and 2 facing each other with a sealing material 8 which also serves as a spacer. A display electrode 10 and a counter electrode 11 are formed on the opposing surfaces of the substrates 1 and 2 by the transparent electrodes 4 and 5 and the EC materials 6 and 7 formed thereon.

Of the substrates 1 and 2, at least the substrate 1 constituting the display electrode 10 is not particularly limited, but is generally excellent in light transmittance of a glass plate, a plastic plate, a plastic film, or the like. A material having an electric insulation property is used, and consideration is given so that the display design such as a symbol or a figure formed by the EC material 6 of the display electrode 10 can be seen from the outside. Further, the substrate 2 on which the counter electrode 11 is formed
For this, a transparent material similar to that on the display electrode 10 side may be used, or an opaque insulating material may be used.

A plurality of transparent electrodes 4 having positions and shapes corresponding to the design to be displayed are formed on the substrate 1 by a known conductive film material such as tin oxide or indium oxide (ITO).
Are formed independently of each other. Further, an EC material 6 is formed on each transparent electrode 4 so as to form a segment having a desired shape. Then, the plurality of segments 10a, 10b, 10c, ...
One display design is constituted by 10n. For example, in the case of manufacturing a 7-segment display element that represents the numbers 0 to 9, seven linear segments are arranged and formed so as to form the letter "day". Each segment 10a, 1
, 0n, transparent electrodes 4 and E constituting 0b, 10c, ..., 10n
The C material 6 is formed into a desired shape by using patterning, etching technology, or the like.

On the other hand, unlike the display electrode 10 side which constitutes a plurality of segments, the counter electrode 11 has one common transparent electrode 5 formed on almost the entire surface of the substrate 2 and one E on it.
It is formed by depositing the C material 7. It is sufficient for the EC material 7 of the counter electrode 11 to have the same amount of reduction (oxidation) charge as the total amount of oxidation (reduction) charge of the display pole 10, but preferably each segment on the display pole 10 side. .., 10n, the opposite charge amount of the portion shown in FIG. 1 has the following relationship (a.ltoreq.a ', b.ltoreq.b',
c ≦ c ′), and more preferably, the charge amount of the portion on the display electrode 10 side facing each segment 10a, 10b, 10c, ..., 10n is twice or more the charge amount of each segment. . That is, if the initial film thickness and the reduction amount are set so that the amount of oxidation (reduction) charge per unit area of the counter electrode 11 is larger than that of the display electrode 10, the counter electrode 11 is divided as in the case of division. The reaction is smooth,
No reduction in response speed occurs. If the counter electrode 11 as a whole has the same charge amount as that of the display electrode 10, the coloring and erasing can be completed even if it takes time due to diffusion.

The EC materials 6 and 7 are used in combination so that they are colored or decolored at the same time when a predetermined voltage is applied, and are decolored or colored at the same time when a reverse voltage is applied or when a short circuit is applied. For example, the EC materials 6 and 7 are not particularly limited, but are usually WO ₃ type, mixed valence complex type inorganic material type or viologen type, tetrathiafulvalene type, styryl type,
Known organic materials E such as anthraquinone lipyrazoline, lanthanoids and diphthalocyanines, conductive polymers
Examples of the C material include metal phthalocyanine derivatives, Prussian blue (PB), and tungsten oxide. Further, as the EC material 7 on the counter electrode 11 side, the same EC material as the display electrode 10 side or an EC material of a different type is appropriately selected from publicly known or new EC materials like the display electrode 10. For example, in the case of a 7 segment display element,
As the display electrode 10 and the counter electrode 11, trivalent iron ions (F
Using an EC material called Prussian blue (PB), which is a mixture of an aqueous solution containing eCl ₃ , Fe ₂ (SO ₄ ) ₃ ) and an aqueous solution containing a farocyanide ion (K ₄ Fe ^II (CN) ₆ ), 1N-KCl An aqueous solution is used as the electrolytic solution.
The electrolyte is not limited to the above-mentioned aqueous solution, and an organic solvent-based electrolytic solution, a solid electrolyte, a gel electrolyte, or the like can be used.

Although not shown, the ECD constructed as described above is necessary after the display state is once cleared by a drive circuit as disclosed in, for example, Japanese Patent Laid-Open No. 30822/1990. Change the display state by coloring only the segments.

First, in order to change the display state, for example, the decoloring charges are individually applied to the colored segments (10b and 10c in the state of FIG. 1) of the display electrode 10 while the opposite is applied. A charge causing a reaction is applied to the entire common counter electrode 11. As a result, the segments (10b, 10c) of the display electrode 10 to which the electric charge is applied and the counter electrode 1 are
A reaction occurs between the display electrode side segment of 1 and the facing portion. Then, the display electrode side segment (1
0b, 10c), the reaction occurring in the portion facing 0b, 10c) diffuses around and progresses the reaction to complete the reaction. After that, by similarly applying a charge for a color-developing reaction to the segment of the display electrode 10 to be colored and the entire counter electrode 11, a segment between the target segment of the display electrode 10 and a part of the counter electrode 11 is applied. The color is activated by and the display is performed.

It should be noted that the above-mentioned embodiment is an example of the preferred embodiment of the present invention, but the present invention is not limited to this, and various modifications can be made without departing from the gist of the present invention.

[0019]

As is apparent from the above description, in the ECD of the present invention, the counter electrode has a common electrode structure, and the total amount of the EC material is reduced or reduced by the same amount as the oxidation or reduction charge amount of the display electrode. Since it has an oxidizing charge, the counter electrode can be manufactured as a single electrode, and patterning, etching, etc. can be omitted, and the construction method can be simplified. Further, even if the display is divided into a plurality of segments, the number of driving transistors is sufficient because the counter electrode is single. For example, when configuring a 7-segment display element, the conventional ECD requires 28 drivers, but the ECD of the present invention requires 16 drivers. Furthermore, the wiring that connects each driver and each segment is simplified. Therefore, the cost of the display device can be reduced.

Further, when the amount of oxidation (reduction) charge per unit area of the counter electrode is set to be larger than that of the display electrode, the same as when the counter electrode is divided corresponding to the display electrode. The reaction is performed smoothly at the speed of.

[Brief description of drawings]

FIG. 1 is a principle view showing an embodiment of an electrochromic display device of the present invention.

FIG. 2 is a principle diagram showing an example of a conventional electrochromic display device.

[Explanation of symbols]

 1, 2 substrate 4, 5 transparent electrode 6, 7 EC material 10 display electrode 11 counter electrode

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[Procedure amendment]

[Submission date] November 10, 1993

[Procedure Amendment 1]

[Document name to be amended] Statement

[Name of item to be corrected] 0002

[Correction method] Change

[Correction content]

[0002]

2. Description of the Related Art An electrochromic display device having a plurality of segments which can be driven independently of each other in one cell and which constitutes one display pole is disclosed in, for example, Japanese Unexamined Patent Publication No. 2-308228. It is known. This electrochromic display device
As shown in FIG. 2, a plurality of segments 101a, 101 are formed separately from each other in one cell 108.
b and 101c, and a plurality of segments 1 for causing a reaction of the display electrode 101 that is completely opposite to the reaction of the display electrode 101 at a position opposite to the display electrode 101.
A counter electrode 102 composed of 02a, 102b, 102c;
The electrolyte 103 is filled between them. The display electrode 101 and the counter electrode 102 are transparent electrodes (ITO) formed on the substrates 104 and 105, respectively.
It is composed of 106 and EC material 107. Here, the counter electrode 102 is generally formed in substantially the same shape as the display electrode 101 and arranged so as to face each other. Therefore, when one display is composed of a plurality of segments, each segment 101a, 10
The segments 102a, 102b, and 102c of the counter electrode 102 having the same shape are formed for each of 1b and 101c. Then, the segments 101a, 102a, 101b, 102b, 101 forming a pair of the display electrode 101 and the counter electrode 102.
An electric charge is applied between c and 102c and controlled independently for each segment.

[Procedure Amendment 2]

[Document name to be amended] Statement

[Correction target item name] 0004

[Correction method] Change

[Correction content]

[0004]

However, in order to cause a reaction opposite to that of the display electrode on the counter electrode side, two transistors as drivers for each pixel (segment) are also provided on the counter electrode side. Will be needed. For this reason,
When a plurality of segments are formed in one cell like a 7-segment display element, a large number of transistors are required, resulting in high cost and complicated connection wiring between each segment and each driver transistor. Have the problem of Also, although the pattern of the opposite electrode is not directly related to the display, it involves complicated steps such as patterning and etching to obtain a plurality of segments like the display electrode, which complicates the working process. Along with this, the cost becomes high.

[Procedure 3]

[Document name to be amended] Statement

[Correction target item name] 0014

[Correction method] Change

[Correction content]

On the other hand, the counter electrode 11 is different from the display electrode 10 side forming a plurality of segments, and one common transparent electrode 5 is formed on almost the entire surface of the substrate 2, and one EC material 7 is formed thereon. It is formed by forming a film. It is sufficient for the EC material 7 of the counter electrode 11 to have the same amount of reduction (oxidation) charge as the total amount of oxidation (reduction) charge of the display pole 10, but preferably each segment on the display pole 10 side. .., 10n, the following relationship (a ≦ a ′, b ≦) shown in FIG.
b ′, c ≦ c ′), more preferably display electrode 1
0-side segments 10a, 10b, 10c, ..., 10
The charge amount of the portion opposite to n is 2 of the charge amount of each segment.
It is more than double. That is, if the initial film thickness and the reduction amount are set so that the amount of oxidation (reduction) charges per unit area of the counter electrode 11 becomes larger than that of the display electrode 10,
Similar to the case where the opposing electrode 11 is divided, the reaction is smoothly performed, and the response speed is not reduced .

[Procedure amendment 4]

[Document name to be amended] Statement

[Name of item to be corrected] 0015

[Correction method] Change

[Correction content]

EC materials 6 and 7 are used when a predetermined voltage is applied.
It is a substance that develops or changes color by an oxidation-reduction reaction, and is not particularly limited, but is usually WO ₃ type, mixed valence complex type inorganic material type or viologen type, tetrathiafulvalene type, styryl type, anthraquinone Known organic material type EC materials such as pyrazoline type, lanthanoid / diphthalocyanine type, conductive polymer type and the like are mentioned, and it is preferable to use metal phthalocyanine derivative, Prussian blue (PB), tungsten oxide and the like .

Claims (2)

[Claims] 1. A display electrode comprising a plurality of segments each composed of an electrode and an EC material which are formed independently of each other in one cell, and an electrode which is formed so as to face the display electrode and E.
Equipped with a counter electrode composed of C material and a cell structure in which an electrolyte is enclosed between the display electrode and the counter electrode, and when changing the display state, all the segments of the display electrode are once erased or colored. In the electrochromic display device in which the counter electrode has a common electrode structure and then the EC material has a total amount of reduced or oxidized charge equal to the amount of oxidized or reduced charge of the display electrode. An electrochromic display device having a quantity. 2. The electrochromic display device according to claim 1, wherein the amount of oxidation or reduction charges per unit area of the counter electrode is larger than that of the display electrode.