DE2751870A1 - PROCEDURE FOR OPERATING AN ELECTROCHROMIC DISPLAY BOARD WITH RECOVERY OF COLOR SOLUTION CONCENTRATION DURATION - Google Patents

Description

Applicant: International Business Machines

Corporation, Armonk, N.Y. 10504 bu / sue

Method of operating an electrochromic display panel with recovery of paint solution concentration time

The invention relates to an arrangement as can be found in the preamble of claim 1.

Such an arrangement is therefore in the patent ... (patent application P 26 54 568.6) as a starting point for the present Invention described. With the arrangement there, a reversible precipitation of a substance is caused from an electrochromic solution onto activated display electrodes. The display electrodes are grouped together, e.g. B. Lines, the procedure in detail therein consists that current pulses of the same amplitudes are supplied with such strength that the transition time is shorter, than that which would be required to deposit sufficient substance on an electrode to produce the display by adding only from each group of the display electrodes those electrodes are controlled with the help of which the display is to take place. The current pulses are thereby successively and cyclically each group of display electrodes in such a way until the desired Display, the time required to generate the display being less than that which would be required to produce the same display if only a single pulse of sufficiently long transition time succeeded each group of display electrodes would be fed.

Also in the present case of improving the screen described above, the display electrodes are as Pixel electrodes arranged in rows and columns.

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Such an electrochromic screen as such is on known, in this case a display is usually deleted line by line or column by column. As is well known an electrochromic display device works using a reversibly applied to the electrode surfaces Precipitation that precipitates out of the color solution as material as long as the electrodes in question are controlled. the Speeds for creating and deleting a display on the screen are of course limited by the Affects the material concentration of the dye in the respective vicinity of the activated electrodes. That too The higher the concentration in the vicinity of the person concerned, the faster a display is produced The lower the concentration in the vicinity of the respective electrode, the faster the erasure is Electrode is. According to the aforementioned patent ... (patent application P 26 54 568.6) can now be done in the manner indicated there advantageously increase the speed of evoking an advertisement.

In an advantageous manner, however, the dye concentration of the material in the solution should in each case be such a fourth that the speeds both for generating a display and for erasing a display are at a maximum. These mutually contradicting requirements mean that normally neither the display generation nor the display deletion can be as fast as possible, so that in practice a compromise has to be found.

The object of the invention is therefore to provide a method which, in addition to increased display speed the erasing speed of a display is also brought to a value that has been increased compared to previously.

According to the invention, this object is achieved, as is the case with the identifier of claim 1 can be found. UK 976 oob 809825/0653

Thanks to the simultaneous erasure of the overall display by removing the deposited material on all relevant display electrodes at the same time, it results that the concentration of the dye carrier in the solution is increased, so that this also increases the speed when a new display is called up accordingly. Instead of a compromise between a high generation speed of a display and a high erase speed of a display thanks to the invention brought about an effect in an advantageous manner which is effective in both specified and also desired directions.

The invention will then be described on the basis of an exemplary embodiment with the aid of the drawing explained in more detail.

The drawing shows a control system for a electrochromic screen according to the invention.

In the drawing, the electrochromic screen contains a flat cavity, of which at least one boundary surface is transparent as a viewing surface, and z. B. can be made of glass. The cavity of the screen consists of a solution of electrochromic material, such as. B. Heptylviologendibromld, which has the property, in response to j electrical charge supplied to an electrode, a color precipitate * · j strike from an inherently colorless solution on this electrode i

to fail. A matrix of pixel and display electrodes 1, which consist of conductive material that is electrochromic to the electrochromic solution, is on the Applied inside the cavity wall of the screen. Electrical connecting lines to a transistor switch 2 assigned to each pixel or display electrode 1 extend through this wall Field effect transistor is shown, but can also be used in a bipolar design. UK 976 008 8 0 9 8 2 5/0653

In the present case, each electrode 1 is connected to a respectively assigned drain electrode of the transistor switch 2, whereas the respective source electrode 4 is connected to the column conductor 5 of the display matrix. It goes without saying such a column conductor 5 is assigned to each column of display electrodes 1. The gate electrodes 6 of the field effect transistor switch 2 lie on the row conductor 7, one of which is provided for each row of the matrix of the display electrodes 1 is. The column lines 5 are each assigned Source-drain paths of the field effect transistors 8 are connected to a respective power supply 9 and are also located via the source-drain paths of the field effect transistors 10 of a connection terminal 11. The source electrodes of all transistors 10 are connected to the connection terminal 11, whereas their gate electrodes 12 are connected to a common one Terminal 13 are connected.

These transistors 8 are referred to as write transistors and the transistors 10 as erase transistors. The gate electrodes 14 of the write transistors 8 are connected to a respective bistable trigger circuit 15 in such a way that in each case in the "set ^N" state of a bistable trigger circuit 15 the relevant gate electrode 14 is at such a potential that the relevant write transistor 8 is live If, on the other hand, a bistable multivibrator 15 is in the "reset ^H" state, the associated gate electrode 14 is at such a potential that the relevant write transistor 8 cannot become live.

The bistable flip-flops 15 form a data register 16, which is from an external data source, not shown here, such as z. B. a high speed shift register into which the desired data pattern is input serially, through parallel Transfer is to be loaded. Each row line 7 is connected to a bistable flip-flop 17 in such a way that that in the "set" state the relevant gate electrodes 6, UK 976 008 8098 2 5/065 3

which are on the line 7, have such a potential that the relevant switching transistors 2 can become conductive. If, on the other hand, the bistable multivibrators 17 are in the "reset ^M" state, the gate electrodes 6 have such a potential that the relevant switching transistors 2 are not conductive the result is a shift register 18 which can be operated as a cyclical register by applying a drive signal consisting of shift pulses to the connection terminal 19. All bistable flip-flops 17 can be switched to the "set" state by applying a signal to the connection terminal 20. The electrical circuit via the electrochromic material is closed via a transparent counter-electrode 21 which is attached to the wall of the display panel cavity opposite the transparent wall.

It is emphasized that with the exception of the erase transistor 18 and the possibility of simultaneous control of all gate electrodes 6 via terminal 20, the arrangement shown in the drawing is functionally identical to that of the mentioned patent ... (patent application P 26 54 568.6). At the same time it is noted that only three rows and three columns of electrodes are shown for the sake of clarity are. A practical embodiment of the screen according to the invention could just as easily consist of 500 lines exist, each of which has more than 1,000 electrodes 1.

Before discussing the delete operation according to the invention First of all, the manner in which the arrangement shown in the drawing performs the display operation or the write operation according to the above-mentioned patent will be explained. the Line selection is made cyclically by moving a single UK 976 008 80982 5/065 3

The "set" state is carried out via the flip-flop circuits 17 forming the shift register 18. In this way the gate electrodes 6 of the switching transistor rows are held at such potentials that the conductivity of the enable relevant transistors. The selection of display electrodes within a line is done with the Data register 16. Corresponding to the pattern of "set" and "reset" states in the bistable flip-flops 15 of the data register 16 are the relevant write transistors 8 conductive or non-conductive. Is a write transistor 8 conductive, then an electrical circuit closes via the respectively assigned power supply 9, the relevant one Write transistor 8, the assigned line 5 »the respective switching transistor 2, which is passed through the shift register 18 selected line, the selected display electrode 1 and the counter electrode 21. The data pattern in the data register 16 is modified as desired, just as the shift register advances its "set" status from line to line. The data grid can be z. B. transferred in parallel to the data register 16 from a shift register not shown here, into which the data pattern has been serially inputted at high speed.

The erase operation of the present invention in which all of the display electrodes are selected at the same time will now be dealt with will. This erase operation is carried out by applying control signals to terminals 13 and 2O, where j

at the same time an erase voltage of the terminal 11 is supplied. The signal at terminal 20 switches all bistable multivibrators 17 in the "set" state, so that all switching transistors 2 in the conductive state reach. The signal at terminal 13 is the Gate electrodes 12 of all erase transistors 10 are supplied. All bistable flip-flops 15 of the data register 16 are brought into the "reset" state in order to

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make that the write transistors 8 are blocked. That The signal at the connection terminal 13 is fed to the gate electrodes of the erase transistors 10. All the bistable flip-flops 15 of the data register 16 are brought into the "reset" state in order to ensure that the write transistors θ are not conductive. There are now electrical ones In front of parallel circuits which comprise the connection terminal 11, the erasing transistors 10, all switching transistors 2 and all display electrodes 1 and the counter electrode 21. By Apply a suitable voltage to terminal 11, which is such that the polarity of the display electrodes 1 and the counter electrode 21 with respect to their polarities are reversed during the display operation, it results that the color precipitation from the respective display electrodes 1 is eliminated. Of course, display electrodes without this color deposit are not affected by this measure.

The drive voltages required for this erasure process depend on the electro-clock material as well as on the transistors used the heptylviologendibromid used as electrochromic material, can be successfully used with a counter electrode voltage of 6 V, an erasure signal of 6.2 V, which is applied to the Terminal 11 is applied, and operate with the help of power supplies 9, each of which delivers 500 / iA.

The advantage of the erasing method according to the invention results from the fact that erasing a screen by erasing a large number of lines at the same time is obviously faster than erasing one line at a time; However, how much faster this process is compared to previous methods, results from how quickly the additional; can satisfy the required electricity demand. Practice has shown ¹ that with 20 times the permissible current load of a respective quenching transistor 10 compared to that of a switching ^! ÜK 976 * 008 809825/0653

transistor 2 can be erased 20 lines just as quickly as otherwise only one. In addition, the erase time increases linearly with the number of lines. The parameter that determines the erasing speed of the entire display device
is not determined by the dye concentration of the electrochromic material, but by the current capacity of the respective extinguishing circuit. Accordingly, thanks to the invention, the dye concentration can be increased in order to enable the display to be generated
accelerate.

The overall result of the combination of the display generation method as described in the patent ... (patent application P 26 54 568.6) with the deletion method according to the present one
Invention therefore consists in a considerable reduction
the time it takes for the display to change on an electrochromic screen.

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Claims (3)

Ϊ7 51870 PATENT CLAIMS Method for operating an electrochromic screen with such an electrochromic substance, which localized their optical properties through the selective action of electrical fields able to visibly change the position of pixels or character segments with a number of defining electrodes and with control circuits for delivering pulse-shaped control currents for depositing electrochromic substance on the pixel and / or display segment electrodes, whereby a transition time is associated with a certain current intensity of the control pulses, which thereby it is defined that a triggered visible effect can just not be further improved by using the selected one for the display of a display Pixel and / or display segment electrodes in a repeated sequence with intervening for the For recreational breaks, impulses of such amperage are applied to the color solution concentration, that their respective transition period for a one-time exposure, i.e. a sufficient deposit of color substance on the electrodes, is too short, the whole in such a way that nevertheless the total time for generating a display on the entire screen area is less than if the display is only with a single pulse, however, a correspondingly longer transition time is generated for each activated electrode would have been, according to patent ... (patent application P 26 54 568.6) characterized in that for Clearing the display on the screen removes the color substance deposited on the corresponding electrodes from all electrodes at the same time will. 8Q9825 / 0653 UK 976 008 2. The method according to claim 1, characterized in » that each column of the screen is assigned an erase transistor, each with the Output of the column write transistor is connected. 3. The method according to claims 1 and 2, characterized in that the ampacity of the
respective erase transistor 10 is selected to be twenty times larger than that of the respectively assigned
Switching transistor 2. ooB R 0982 5/065 3