SU547793A1 - Device for displaying information - Google Patents

Description

one

The device relates to the field of automation and computer technology and can be used in information display systems, in particular, for automated control systems.

Devices are known for displaying information, of which each display unit is controlled by a thyristor l.

In these devices, the display units are switched using thyristors, which simultaneously perform the functions of memory elements, and the anode supply of the thyristors is reset by a shunt key, which is controlled by the address reset signal. If there is a shunt key in the device, increased requirements for the reset key power, the magnitude of the ripple voltage of the thyristor power supply and the power of the anode power source must be met, especially with a large number of indication blocks.

The closest in technical essence to the invention is a device comprising display units connected to a code converter, which is connected

with the unit receiving information and bpoko; Fyur - Mirani Handle: Pulses.

In this device, the off-setter:: the transistor in the display unit is under the full voltage of the anode power supply, which limits the potential for the anodic voltage to the maximum allowable;:.; the voltage of the EKL1 is flat, it is an e-0 transistor, and it requires the use of a lower-voltage transformer in the pitch block, and with a high anodic load it requires the use of a high-power, high-voltage transistor.

The aim of the invention is to predict the reliability of the device.

For this purpose, a sensor of a cool potential, connected to a control pulse shaping unit and power supply wrenches, is inserted into the device.

Claims (2)

The switching-off UTIH transistor by e-gom is in the open state at the moments of indication, therefore the collector-emkhgiter voltage is practically pasvio zero. Due to the introduction of a zero-potential sensor, the locking of the transistor (i.e., quenching of the indication unit) preforms to the moments of the minimum voltage at the input of the block, which allows the application of a jogging transistor with a low maximum permissible voltage hold thyristors. In addition, in the closed state of all thyristors and the switching transistor, the equivalent resistance of the parallel parallel resistors of all thyristors and the matching of the parallel resistor of the switching transistor are desh1 voltages, which further reduce the voltage across the transistor. Fig. 1 shows a block diagram of a device for displaying information; FIG. 2 is a timing diagram explaining its operation. Ustrogut-in contains blocks 1 -1 - 1 - n indications, each of which includes switching thyristors 2-1 - 2-n elements 3-V - 3-n indications (for example, incandescent lamps), capacitor 4, diode 5, transistor 6 and resistors 7 - 1 - -7 P and 8, code converter 9, block 10 (- {yrmirOBiii control 1S-5X pulses, block 11 receive ish |: ormapi, sensor 12 zero noTOfmHana and block 13 power; 14 -11 - 14- 1 p, 14- ml - 14-ni-n outputs of the code converter, 15-1 15 L. 16-1- 16- 11 outputs, and 17-1 17 - gp are the inputs of the carbon-forming unit pulses, 1S -. -18- t - inputs of display units, 19 - sensor output zero The converter 9 of the code converts combinations, for example, of a binary code, coming from the information receiving unit 11, in a combination of the spatial code and by output 14 11 -. 14 1 T 14 - m 1, -14. gLG1, KOTopbiMii it is connected : cooTBeivant bruises 1 - 1. - 1 7t indications, transmits signals of spatial code combinations to the inputs of the latter. Outputs 14-11 - 14 .-. 1 n ™ 14-ml -14-yyyi n are made by the multiplier you; The diagram ae is shown) of a code converter 9, which can be executed, for example, on diode coincidence circuits controlled by video. - 15 pt A block of 10 control pulses, which is connected by outputs 16 - 1 - 16-t with blocks 1 - 1 - 1 - -n display, and inputs 17-1 17 - gp - with block 11 receiving information. The inputs of the power supply unit 13 are supplied with alternating voltage (J supplying the mains frequency with a direct ripple voltage from its output is supplied to the power supplying parallel inputs 18-1 18m of all display units 1, as well as to the input sensor 12 of zero potential, output 19 which is connected to the corresponding input of the control pulse shaper 10. Consider the operation of a single display unit, for example, 1 - 1. A pulsating voltage acts at the input 18-1, which is smoothed by a capacitor 4 so that B moments of dropping to lp of the input voltage 18-1, the worst of the thyristors 2-1 - 2 - n would remain in the on state, therefore the voltage on the capacitor 4 at the moments of dips of the pulsating supply voltage should decrease to nagf the voltage U., at which the thyristors 2 -if - 2 - T1 would be kept in the on state (see Fig. 2a), which is ensured by selecting the capacitance of the capacitor 4 depending on the load. At the output of the zero potential sensor 12 at times when the output voltage of the power supply unit 13 is close to zero , short pulses with a frequency of 2 f appear (see Fig. 2b of 8 static static and (if signals are not inputted at the input of information receiving unit 11), transistor 6 is open, part of thyristors 2-1 - 2 - G is open in accordance with the spatial code of the pre-recorded character, therefore the corresponding elements 3 - 1 - 3 - Ti highlight the corresponding sign . To display a new sign (or confirm the previous one) in block 1-1, signals are received at the input of information receiving block 11 containing information about the address of this block 1 - 1 and the sign to be displayed. A code combination of this sign (for example, in a binary gymnast) is fed to the inputs of the 9 code converter, which forms the received key combination K) of the spatial code. At the same time, the Jo 17-1 sends a block address signal to the control pulse driver 10. The duration of the address and code signals G | D is chosen from the condition T tr 2 Tn, pa 1/2 f is the period where T is the zero-sequence pulses. The control pulse shaping unit 10 gates the converter outputs: 9 codes and the control impulses are coupled to the zero-sequence pulses acting at the zero potential sensor output 12. If the address signal and the zero-sequence pulses coincide in time (see Fig. 2, c and d), a pulse is produced that is output 16-1 to the corresponding input of the block 1-1 and the blocking transistor 6, which leads to turning off thyristors 2-1 - 2-T1I for quenching elements 3-1 - 3-п (see fig. 2 in the shaded part). At this moment, the voltage on the capacitor 4 is close to the voltage U beats. The shape and amplitude of the pulse on the collector of the locked transistor 6 is shown in FIG. 2 days At the moment of the end of the pulse acting at the output 16-1, the forming unit 10 generates a pulse (see Fig. 2 e), which enters the input 15-1 of the code converter 9 and allows the transmission of signals on the outputs 14-11 - 14-1 p. In this case, the control electrodes of those thyristors 2-1 - 2 - T1, which correspond to the code of the received sign, receive switching pulses, due to which the received sign is displayed by the display unit 1-1. Thus, in this device, the voltage U -, - on the collector of the transistor 6 is locked due to the lock-in moments to the moments of the minimum supply voltage several times less than the amplitude value of the power supply voltage Iddd. The transistor 6 is connected in series to the thyristor 2 to form a voltage divider with the help of resistors 7 and resistor 8 and further reduce the effective value of the voltage on the transistor 6 when it is locked, approximately 2-3 times, depending on the type of thyristor used moat elements 2 and 3. Under certain (chosen) divider dividing ratio K d and the nominal resistive torus 8 R, R denomination resistors 7 o№. is determined by the expression: t nR - (К-Л КЭт А /. А 17Г 71 - the number of display elements 3 in the ingkkadiy block. The selection conditions of the transistor 6 by the allowable voltage are determined by the ratio of SCUD, In the proposed device, compared to the known, it is simplified the power supply of the display elements, since the supply voltage can be pulsating, smoothed only to a small extent so that in the dips of the supply voltage the thyristors are kept in the on state, and if the display elements are fed with a high voltage, The resistors are parallel to the low-voltage direct voltage, then the smoothing capacitor may not be used at all, since keeping the thyristors at the moments of a high voltage to zero in this case is provided by the presence of a low voltage of a constant voltage on its anodes. the transistor controlling the discharge of the thyristors of the display unit, the type of which must be chosen practically only by the permissible collector current. In addition, the display elements, especially if incandescent bulbs are used as them, can be powered directly from the mains, without using powerful step-down transformers. Apparatus for displaying information comprising display units connected to a code converter connected to an information receiving unit and a control pulse generation unit, characterized in that, in order to increase the reliability of the device, a zero-potential sensor is inserted into it control pulses and power buses. Sources of information taken into account during the examination: 1. USSR author's certificate No. 337780, M. C S F F 3/14, 18.05.7O. 2. The patent of France No. 2174415., cl. From 09 F, 1973. 1 but prrt .2