SU600597A1 - Method of control of indication process of dynamic advertising - Google Patents

Description

METHOD OF MANAGING THE INDICATION PROCESS

Claims (2)

(54) DYNAMIC ADVERTISING of the coincidence of the thyristor control unit 3. On the second, combined, inputs of the Eecc matches, the UCH strobe pulse sequence (see Fig. And Fig. 2d) is generated by the strobe-pulse w 5 unit, whose input is connected to the pythaccum Uc network and strobe pulses: follow synchronously with the network with the frequency ROI - 2F network The frequency of the radar of the signals Uj of the master oscillator 1 clock and Gauls chooses a takh so that during the period T {. (see Fig. 2) the following strobe gate of the recalculated unit performs the approximate operation, t. e. Tj, j, n, hence the F „FCM n 2 Fcetu result of this for the work cycle coincidence of the strobe pulses occur with only one of the output signals and - recalculate block 2. Accordingly, for each half of the mains voltage, signals appear at the output of one of the cells 6–9, then amplifying the amplifiers 10–13. At the output of the amplifiers, signals Uyt are received - Uj4 f which feed 4 tail thyristors to the inputs of the unit. Accordingly, one of the thyristor cells is opened and the lamps 14-17 of one of the output channels of the device light up (see Fig. 1 and Fig. 2e). Since kaK frequencies F and 2P are mutually close, but not equal to u) uy, then over time there is a constant phase slip of the strobe pulses relative to the output signals Ts.- U, jj of the scaler 2. Consequently, the control signals for the thyristors and a / v j – Uy appear successively in time at the outputs of different cells 6–9 coincidences. Accordingly, with the time theory, lamps of 14, 15, 16, or 17 corresponding channels will flash. If the order of location of the lamps 14-17 in space corresponds to the order of switching of each channel, then the effect of a moving light beam will be observed. In FIG. 2 e shows the sequential switching of the output coughs of device 2,. This reverse order of switching is semiadish with. Naturally, with TJ.M, direct switching of output channels is obtained. The time interval during which the switching of the adjacent channels takes place is the switching period T it is determined: t m si: pasha T-T c m as ,,. "It is known that when Fjj 16 Hz receive a continuous motion (image) light beam. To get a directional movement of the light in both directions for and F (.TM it is necessary to change the frequency within 384-416 Hz. At F 2Fcg, the switching frequency is P 0.% of the frequency FM 2p. Network is the basic (calculated) clock clock The duration of the strobe pulses with this method is chosen to be less than the turn-on time of the thyristors, which is currently in the range of 10–80 µsec for the devices currently in use. Of course, the duration of the strobe pulses can be taken more. It has all its tangible advantages when the duration of strobe pulses does not exceed 0.05-0.1 the duration of the half-wave of the mains voltage. For the industrial frequency of the mains voltage of 50 Hz, the duration of the strobe pulses in this case should not be 6 (f. more than 0.5 -1.0 µs. Formula of the invention. A method of controlling the process of displaying a dynamic advertisement, concluding with highlighting the elements of indkkadai by periodically connecting them with control impulses to a voltage source with a periodicity of connection izmenesh1em frequency clock pulses otlicha.yuschiys in that, in order to expand the functionality and reduce the level pomehoobrazovani, the clock frequency is set at proizvede-. double the frequency of the mains voltage on the number of display elements, and the control pulses are gated with pulses with a duration not exceeding 0.05-0.1 the duration of the half-wave of the mains voltage following with the double frequency of the mains voltage and synchronous with it. ( CM ) i CM %