RU2006960C1 - Information display - Google Patents

Abstract

FIELD: computer engineering. SUBSTANCE: display has digital scale indicator with matrix organization of leads, switching units, decoders, code converter, generator, register. Inputs of two decoders affording decoding of less significant bits are connected in parallel and outputs of one of them are connected to odd-numbered indicator leads while those of other decoder, to even-numbered leads. Control signals are shaped for all decoders by code converter. Information is displayed as light spot composed of three critical areas within two time steps at any value of input code. EFFECT: improved design; good substitute for pointer-type indicators. 2 dwg

Description

 The invention relates to computer technology and can be used to build devices for displaying information on discrete-analog scale indicators.

 The purpose of the invention is to increase the visibility of the reproduced image.

 In FIG. 1 shows a block diagram of a device; in FIG. 2 - connection diagram of the outputs of the first and third decoders to the key inputs of the first group with byte organization of the indicator outputs.

 The device contains a scale matrix indicator 1, the keys of the first 2 and second 3 groups, the first 4, third 5 and second 6 decoders, code converter 7, clock 8 and register 9.

 The device operates as follows.

The input code corresponding to the parameter being monitored is recorded in register 9 and fed to the input of converter 7. Two groups of signals are generated at its output, which provide the excitation of the first and second groups of indicator outputs 1. The first group of signals consists of an information code fed in parallel to the inputs of the first 4 and third 5 decoders, and decoder selection signals 4 and 5. With binary input code, the number of bits of the information code fed to the inputs of the first 4 and third 5 decoders, N-log ₂ n / 2, where n is the number of outputs Odes of the first group of indicator 1. The output signals of the first 4 and third 5 decoders through the corresponding keys of the first group provide the excitation of the first group of buses of the matrix indicator 1. The second group of signals is an information code of the second decoder 6, the output signals of which through the keys of the second group 4 provide the excitation of the second tire group indicator 1.

The number of bits of the information code supplied to the input of the second 6 decoder, M = [log ₂ m], where m is the number of outputs of the second group of indicator 1; [] - rounding to a larger integer. Note that the total number of bits of the input code of the device is M + N + 1 (in the traditional construction of the circuit, M senior bits would be input to the decoder of the upper bits, and the remaining N + 1 would be input to the decoder of the lower bits).

 Reproduction of the light spot, consisting of three image elements, is carried out in two cycles. In one of them, the output signals of the first and third decoders and the second decoder 6 connected in parallel are ignited by two adjacent display elements of indicator 1 (both decoders 4 and 5 are selected). In another cycle, only one display element is lit - only one first or third 5 decoder is selected. Changing the output signals of the converter 7 with a constant input code (changing the cycle) is carried out by the output signals of the generator 8, which generates a sequence of rectangular pulses with a duty cycle 2. The frequency of the generated pulses of the generator 8 is higher than the critical flicker frequency.

 Consider which signals are generated by the code converter. The image of the light spot consists of three elements: the main one, located in the middle and corresponding to the input code, and two additional ones to the left and to the right of the main one. Display elements capable of reproducing a light spot can all refer to one output of the second group or to different neighboring buses of the second group, in any case, at least two display elements involved in image synthesis relate to the same bus. Since the outputs of the first 4 decoders are connected through the keys of block 2 with odd buses, and the outputs of the third 5 decoders are connected with even buses (see Fig. 2), it is enough to form the necessary code value at the inputs of the first 4 and third in one of the image playback cycles 5 decoders and allow the passage of their output signals to the inputs of the first block 2 (select decoders 4 and 5); in the next cycle, depending on the value of the input code and the adopted algorithm, reduce or increase the input code of the decoders 4, 5 by a unit of the least significant bit and select only one of them. The higher M bits of the input code are received at the input of the second decoder unchanged if all the display elements belong to one bus of the second group, and in one of the cycles the input code of the decoder 6 decreases or increases by one lower order if the light spot display elements belong to different buses second group.

 In the device, the control signals of the decoders 4,5,6 are formed as follows.

 The control signals providing control of the first 4 and third 5 decoders are formed from the group of the least significant bits of the input code of the device, in which the discharge having the smallest weight is excluded. If the main element of the light spot is even, then in the first cycle, the input of the decoders 4, 5 receives the truncated code of the least significant bits and selects both decoders, in the second cycle, the unit of the least significant digit is added to the truncated code and only the first 4 decoder is selected. If the main element of the light spot is even, then in the first cycle the truncated code is reduced by a unit of the least significant bit and the third 5 decoder is selected, in the second cycle the truncated code is saved and the first 4 and third 5 decoders are selected. To control the second 6 decoder, a group of high-order bits of the input code of the device (the remaining bits) is taken. If all the light spot display elements belong to one output of the second group, then the high-order code does not change. If the main display element is the last of the first group of outputs (even), then in the second cycle the code of the higher digits is increased by one. If the main element is the first of the first group of outputs, but in the first cycle, the high-order code is reduced by one.

 When displaying the zero and maximum parameter values, there are no additional left and right elements, respectively, so the image of the light spot in these cases consists of only two display elements.

 Thus, the device provides the reproduction of a visual image in the form of a light spot, consisting of three adjacent display elements, and image formation is carried out in two cycles with a small amount of information transmitted to the decoders. (56) Copyright certificate of the USSR N 1617451, cl. G 09 G 3/20, 1988.

 USSR author's certificate N 1124377, cl. G 09 G 3/14, 1983.

Claims (1)

 INFORMATION DISPLAY DEVICE, comprising a scale matrix indicator, the outputs of the first and second groups of which are connected to the outputs of the keys of the first and second groups, the register, the information and clock inputs of which are the information and clock inputs of the device, the clock generator, three decoders, the outputs of the first and the second decoders are connected to the inputs of the first group of keys of the first group and to the inputs of the keys of the second group, respectively, characterized in that the device is converted ovatel code information and the clock inputs of which are connected to the outputs of the register and the clock generator, respectively, the outputs of the code converter are connected to inputs of the first, second and third decoders, respectively, the outputs of the third decoder are connected to inputs of the second group of the first group of keys.

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