JPH01172887A - EL panel - Google Patents

Abstract

PURPOSE:To obtain a sufficient dimming range (DR) by constituting the title EL panel by superposing an electrochromic display (ECD) on an EL display (ELD) screen. CONSTITUTION:An ELD is provided with a transparent electrode 2, an EL thin film 6 consisting of an EL light emitting layer and an insulating layer and a back electrode 5 on a glass substrate 1, and driven by an AC power source 9. Also, an ECD provided on a display screen (glass substrate 1) of this ELD is provided with the glass substrate 1, the transparent electrode 2, an electrolyte 8 and an EC film 7, sealed with a spacer 9, and driven by a DC power source 10. Accordingly, light which is generated by the ELD can be adjusted by the ECD. In such a way, a sufficient DR is obtained, and also, in addition to driving of the ELD, the DR can be adjusted.

Description

DETAILED DESCRIPTION OF THE INVENTION (Field of Industrial Application) The present invention relates to an EL panel that can be used as a display whose brightness can be adjusted for easy viewing depending on the environment.

(Prior Art) Conventionally, as an EL panel that emits EL (Electroluminescence) light by applying an alternating current electric field, a transparent electrode 2 is formed on a glass substrate 1 shown in FIG. 2, for example, and an insulating layer 31 is formed on the transparent electrode 2. Luminescent layer 4. An EL display (hereinafter referred to as a "BLD") with a double insulation structure has been developed in which a back electrode 5 is further formed after the insulation layer 3 is formed one after another. Currently, EL panels made of ELDs are mainly used for measuring instruments and the like, and are rapidly becoming inferior in terms of good visibility and large viewing angles.

In general, when these panels are used in a bright environment such as under sunlight, it becomes difficult to see unless the display screen is sufficiently bright, and when used in a dark environment such as at night, it becomes difficult to see unless the display screen is somewhat dark.

Therefore, it is necessary to adjust the brightness of the display screen of the panel depending on the environment in which it is used.

In a BL panel made of a conventional ELD, the brightness of the display screen is adjusted by modulating the applied electric field voltage and frequency. However, its adjustment range (
The dimming range (hereinafter referred to as DR) is not satisfactory, and there is a problem in that the brightness of the display screen cannot be adjusted sufficiently in response to changes in the usage environment.

(Problems to be Solved by the Invention) An object of the present invention is to provide an EL panel having a sufficient R.

(Means for Solving the Problems) The present inventors have conducted intensive studies to solve the above problems, and as a result, by using a dimmable display,
It was discovered that an EL panel having a sufficient R could be obtained, and the present invention was completed.

That is, the present invention is an EL panel consisting of an electrochromic display (hereinafter referred to as BCD) overlaid on a BLD screen. The present invention will be explained below based on the drawings. FIG. 1 is a diagram showing an example of the EL panel of the present invention.

The EL panel of the present invention is characterized in that an ECD (portion A in FIG. 1) is provided on the display screen of a conventional ELD (portion B in FIG. 1).

The ELD constituting the present invention has a transparent electrode 2 on a glass substrate 1.
, an EL thin film 6 consisting of an EL light-emitting layer and an insulating layer, and a back type f! 5 and is driven by an AC power source 9. Furthermore, this BLD display screen (glass substrate 1
) The ECD installed on the glass substrate 1. Transparent type f#12.
It includes an electrolyte 8 and an EC membrane 7, is sealed with a spacer 9, and is driven by a DC power source 10.

The EL panel of the present invention displays the ELD through the ECD display screen.
It displays the light generated by the light.

The EC film 7 in the ECD is a light absorber, and its color density changes by absorbing light.

Furthermore, the brightness of the ECD display screen changes depending on the degree of coloring of the EC film 7. Furthermore, the degree of light absorption of EcWA is EC
It can be changed depending on the amount of electricity used to drive D. Therefore, in the EL panel of the present invention, the brightness of the display screen can be adjusted by adjusting the power source used to drive the ECD.

Although any known BLD or ECD can be used as the BLD or ECD constituting the present invention, it is preferable that the EC film is translucent because the light generated by the ELD is displayed on the ECD screen through the ECD. , for example, a WO3 film.

Further, there is no particular restriction on the manner in which the ELD and ECD are overlapped, but for example, as shown in FIG. 1, they can be overlapped using a spacer 9.

(Effects of the Invention) As described above, the EL panel of the present invention can adjust the light generated by the ELD using the ECD, and has a sufficient R.

Furthermore, since the DR is adjusted using the power source for driving the ECD, it is possible to adjust the DR separately from driving the ELD.

(Examples) Hereinafter, the present invention will be explained in more detail with reference to Examples, but the present invention is not limited to these in any way.

Example The EL panel shown in FIG. 1 was created using the following procedure.

A glass substrate (7059 manufactured by Corning) having a transparent electrode made of indium oxide and tin oxide is patterned by photolithography to form a striped transparent electrode 2. Next, yttrium oxide (Y203) is deposited by EB evaporation. Insulating layer, do not dope Mn
An EL thin film 6 having an nS layer as a light emitting layer was formed on the transparent electrode 2, and a back electrode 6 was further formed on top of the transparent electrode 6 by EB evaporation to obtain an ELD. The obtained ELD exhibited light-colored light emission.

Next, an ECD was created. In the ECD, a transparent fff12 is formed on a glass substrate 1, a WO3 film is formed as an EC film 7 on the electrode by EB evaporation, and lithium perchlorate and propylene carbonate are used as electrolytes to form a transparent fff12. ! 2 and the spacer 9 can be used for sealing.

After that, the ELD display screen (glass substrate 1)
The CDs were stacked together with a spacer 9 interposed therebetween to obtain an EL panel of the present invention.

The obtained EL panel exhibited a green color, could darken the display screen by applying a positive driving voltage, and had a sufficient R.

[Brief explanation of the drawing]

FIG. 1 is a diagram showing an example of the EL panel of the present invention. FIG. 2 is a diagram showing an EL panel made of a conventional ELD. In the figure 1... Glass substrate 2... Transparent electrode 3... Insulating layer 4... EL light emitting layer 5... Back electrode @
6... EL thin film 7... EC membrane 8... Electrolyte solution 9... Spacer 10... AC power supply for driving ELD 11... Power supply for driving ECD A... ECD B... ELD shows.

Claims (1)

[Claims] An EL panel consists of an electrochromic display (ECD) layered on an EL display (ELD) screen.