SU944154A1 - Method of forming television image on gas-discharge display panel - Google Patents

Description

The invention relates to television and can be used in the construction of receiving television devices based on gas discharge display panels (GUIs) and other flat screens of matrix type. A method of generating television (TV) images on a GUI based on the sequential transfer (scanning) of a glow discharge between systems is known. mutually perpendicular scanning anodes and cathodes using n-phase (in this example, six-phase) pulses applied to the cathodes grouped and given to the anodes and dikatsii (sinhrenno scanning discharge) voltage pulses, length of tsromodulirovannyh telnosti video signal 03Odnako known method character zuets significant disadvantage which consists in that it determines the lowest value of luminance and contrast generated whith TV image. This is due to the fact that the image is scanned by this method according to the principle of one line per frame (one line-at-a-time); the average image brightness is equal to the ratio of the pulse brightness of the HIP indication element to the total number of lines (horizontal electrodes) and is the smallest value. The contrast of the image formed in this method is determined by the ratio of the length of the television line (H) to the time the discharge ignition is delayed and is also characterized by a low value. There is also known a method of forming a TV image on a GUI, in which, in order to increase the brightness of the image, the scanning is carried out on the principle of two lines per frame (2-lines-at-a-time) 2. However, this method requires a full frame (recall of video information and It is implemented only on the GUI, which is actually a mechanical combination of two panels, each of which reproduces only half of the lines (from 1 to 312 and from 312 to 625). The closest to the technical essence of the invention is a method of forming a TV image on GUI realizable It is based on alternating voltage supply (in this example, constant voltage) to horizontal electrodes and simultaneously applying voltage pulses to all vertical electrodes that are proportional to the duration of discrete values. GZ video signal The disadvantage of this method is the low luminance and contrast of the invention. The purpose of the invention is to increase the average brightness and contrast of the image (at least twice) due to lichenie time of the excited states of elements and lines of their mutual overlap in time. The goal is achieved by the fact that in a known method of forming a television image on a gas discharge display panel, by which the video signal of each line of the original image is sampled according to the number of vertical GUI electrodes, these video signal pulses are transformed into a voltage pulse whose duration is proportional to the amplitude of the video signal pulse voltage pulses are simultaneously applied to the vertical electrodes of the ISU, and to the horizontal electrodes of the ISU alternately, with a shift for The string H is relative to each previous electrode, sweep pulses are applied, the sweep pulse duration is set to K, -H, where K is 2.3, ... 8, and the maximum voltage pulse duration corresponding to the video signal pulses is set to equal to the pulse duration gaps, while the video signals of the lines of the original image are fed to the vertical electrodes through the K-1 line. The method is implemented on the GUI, which, due to the need to simultaneously excite two or more indication cells corresponding to one vertical electrode, must contain load elements along each indication cell. FIG. 1 shows the GUI and key elements of the horizontal scan; in fig. 2 shows time diagrams and voltage plots for a scan pulse duration of 2 °, i.e. for. To 2. The panel contains horizontal electrodes XI - XN and vertical electrodes VI - VM. The electrodes XI - XN are connected via the key elements of the CL to the voltage source of the sweep (constant, alternating or impulse Hoej, and the electrodes VI ... VM are connected to the outputs of the pulse-width modulators (PWM). Fig. 2c (voltage is shown video signal of the first and third lines; Fig. 2 (5, 6, 7. - pulse pulse diagrams on horizontal electrodes XI, X2, X.; Fig. 2e, f, g voltage diagrams on the vertical electrode N / J, respectively the first, second and third horizontal electrodes. The formation of a television image on the ISU offers considered in the case when the duration of applying a constant voltage to horizontal electrodes XI - XN is two line intervals (2H). During the time tg - t, the discrete values of the video signal of this line are sampled and stored. At time t (Fig 2) by means of closing the corresponding key Kd, a sweep voltage is applied to the horizontal electrode XI (Fig. 26) —At time points t and t, which are separated from t by time intervals H and 2H, respectively, a voltage sweep E is applied to the second and then to the third horizontal electrodes (Fig. 28.1). At time t, simultaneously, all vertical electrodes supply voltage pulses proportional in duration to discrete values of the video signal of the first television line. The maximum duration of these pulses is set to 2H. FIG. 2D shows the pulse T applied to the vertical X / 3 electrode at time t. This impulse provides indi- cation of the cell (XI, VJ) of the ISU over its entire duration and cell (X2, VJ) from the time tij to the end of the pulse fu, since at time t the electrode X2 is also connected to the sweep voltage. During the period of time tr2-13, discretization values of the third television line are sampled and stored, and at time tj, voltage pulses modulated in duration by discrete values of the third TV line are applied to the vertical electrodes. FIG. Figure 2 shows the pulse fj applied to the considered vertical electrode VT. This pulse causes cell indication (X, V.T) throughout its duration and cell indication (X2, VJ) in the interval from tT to t4. The discretization of the second television line is not performed by m, but the duration of the voltage pulses SL, which display the values of this line, are dependent on the durations T. (the previous cTpoKaJ and T3 (the next line), i.e., take the average values between t. And Tj, that causes distortions in the displayed information. However, as shown below, these distortions are very insignificant and do not reduce the main effect of increasing the brightness and contrast of the image. Excitation duration and elements of odd electrodes (st OK) are in full accordance with the values of the video signal. The excitation duration of the elements of even rows are dependent on these true excitation durations of the elements of the previous and subsequent rows (for each vertical electrode - column). This relationship H -} Iv. -) is presented by the following table expression. In view of this dependence,

The estimation of the TV TV image distortion during the formation of the proposed method was made.

Claims (3)

the luminance and contrast of the image, the duration of the sweep pulses is set to Kn, where 5 The loss of information is 1.7%, i.e. insignificant amount. The choice of the switching time of horizontal electrodes, equal to 2H, with a temporary shift in the supply of the scanning voltage E, gives an increase in the brightness of the image elements by a factor of two when the elements in the even lines are distorted. The switching time of horizontal electrodes can be extended to 6–8 horizontal periods (with a corresponding increase in the brightness of the image), since, as is well known, television lines carry similar information. This causes the practical identity of the TV images, formed by the proposed method, the true message. It should be noted that during the formation of color images according to the proposed method, it is possible to simplify circuit solutions for its implementation by using a common line of memory elements for red and blue video signals, which are alternately memorized. The greatest prospect of using the method is to build color broadcast television receivers of new TV standards with an increased (up to 1500) number of decomposition lines. The invention method of forming a television image on a gas-discharge display panel (GUI), according to which the video signal of each line of the original image is sampled according to the number of vertical electrodes of the ISU, each pulse of the video signal is converted into a voltage pulse, the luminance of which is proportional to the amplitude of the video signal pulse, these voltage pulses simultaneously They are supplied to the vertical electrodes of the HIP, to the horizontal electrodes of the HIP in turn, with a shift by the length of the line H For each previous electrode, sweep pulses are given, characterized in that, in order to increase the medium7 2-8, the maximum duration of the voltage pulses corresponding to the video signal pulses is given equal to the length of the sweep pulse, while the video signals of the lines of the original image are fed to vertical electrodes through 1Cstring. Sources of information taken into account in the examination + 1.M1J Laboratories Note, Serial № 1178, July 197. 2.NHK Realizes the worlds largest flat panel TV, IEEE, w 439, July 1978. 3.Ih. I. De Roer An Experimental Picture Element Gas Discharge TV Display Panel, 9th Nat. Symp. Information Displays, pp. 193-200, 1968 (prototype). From shi / i tz Ultrasound i t -tif-ts  Ij b M 1