SU1221657A2 - Information input device - Google Patents

Abstract

This invention relates to the field of automatics and computing. The aim of the invention is to expand. application of the device due to interfacing with various types of computers, which is achieved by introducing the first, second switches, the coder with their connections by providing a flexible interface and changing the message size. 1 il. 3 1C ate vi

Description

The invention relates to automation and computer technology and can be used to enter information from radio engineering complexes into a computer.

The purpose of the invention is to expand the field of application by interfacing with various types of computers.

The drawing shows a diagram of the proposed device.

The device contains a scaling unit 1, a selector 2, the first 3 and second 4 analyzers, the message processing unit 5, the first 6.1 and second 6.2 switches, the driver 7, the first and second elements 8 and 9, the counting trigger 10, the third element And 11 the first trigger 12, the first decoder 13, the first counter 14, the second shift register 15, the fourth group of elements AND 16, the third element OR 17, the seventh trigger 18, the ninth element And 9, the sixth element And 20, the sixth group of elements And 21 , the seventh element And 22, the first element OR 23, the third trigger 24, the fifth element And 25, the fourth the first trigger 26, the element AND-NOT 26, the second element OR 28, the second counter 29, the first group of elements AND 30, the second decoder 31, the sixth trigger 32, the fourth element And 33, the third counter 34, the third group of elements And 35, the fourth counter 36, the second group of elements And 37, the eighth element And 38, the second trigger 39, the dial pad of the switches 40, the fifth group of elements And 41, the first shift register 42, the fifth trigger 43, the group of elements OR 44.

The scaling unit for the purpose of amplifying (attenuating) the signals necessary for the normal operation of the entire device. The selector is for amplitude-time quantization of the signal from the output of block 1. The first 3 and second 4 analyzers are forming a message for a certain format, analyzing it and reading to the block 5 of processing the readiness pulse. The unit 5 of processing of the institute is designed to control the recording of a sequence of binary quantized signals (DCS) in the first and second analyzers, the formation of a readiness pulse and read pulses, the formation of a sounding number, a message number in sounding the address code of the message, as well as for

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five

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0 5 0 5

the transmission of the generated messages, the numbers in the probing, the address code, and the probing numbers in the microcomputer.

The first and second switches 6.1 and 6.2 are identical in composition and purpose and are intended for the word-by-word reading of the h-bit message written in the h-bit of the analyzer shift register, i.e., the message is read - word width, determined by the microcomputer width used, Each element 21 and entering the switchboard controls its subgroup of elements 16 and 16 from the fourth group of elements 16 and (the number of subgroups is equal to k).

 The code 7 generator is designed to form an f-bit message, which is read before reading the first of K words, by which the entire h-bit message is read, i.e. to mark the beginning of a read message.

In the mode of interfacing with different types of micro-computer, the device operates as follows.

Each AND element of the group 21 of switch 6.1 (6.2) 21 controls its own subgroup of AND elements of the fourth group, i.e. each impulse to count from the first shift register 42 opens its element AND 21 groups, the second input of which is supplied with the resolving potential from the output of the counting trigger 10. Next, the read pulse goes to the corresponding elements AND 16 of the group containing -n elements AND, because . h. -birth of the microcomputer used. For example, when mated with an 8-bit microcomputer, only one AND 21 group of the switch 6.1 (6.2) and one subgroup of the AND 16 group are used. The first counter 14 counts up to eight, therefore, eight bits are filled in the first 15 register. Further, the operation of the proposed device does not differ from the operation of a known device, i.e. a readiness pulse is formed, which is fed through the control bus to the microcomputer, then the first shift register 42 is formed by the microcomputer signal, which forms a series of read pulses, the first of which is read

eye is the address code of the message, the third is the message number, and the fourth, via the read switch, the message itself from register 15 (it can be read in a different order).

When mated with a sixteen-bit micro-computer, it is necessary to form a sixteen-bit message in the analyzer register 3. Dp of its reading it is necessary to use two eight-bit subgroups of elements of group 16 and 16, and read the information through two elements of group 21 of the switch 6.1 (6.2) with a single read pulse.

Thus, the larger the width of the interconnected micro-computer, the more elements AND 21 of the switch group 6.1 (6.2) with the corresponding elements of the AND 16 group need to be used to read the message generated in the i-bit

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15

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It is necessary to read the start code of the message generated in the code generator 7 to read the beginning of the message being read, which facilitates the processing of the received message in the micro-computer.

All necessary commutations of the first counter, the first 6.1 and the second 6.2 switches, the former 7 code and the first shift register 42 are carried out before the work begins (for this purpose you can use toggle switches or pushbutton switches).

In register 15 of analyzer 3, an i-bit message is generated, if there is 1 in it, then a readiness impulse is generated that goes to the control bus. Next, a microcomputer pulse triggers a shift register 42, the first read pulse of which reads the word containing the information about the address code of this message before the first read message in the probe.

register. It should be borne in mind that the forward second word does not use the word containing the code diverter when pairing with different types of microcomputers, because a message whose bit size is equal to the microcomputer's width is read by one read pulse.

In the event that, in order to obtain the necessary input speed, it is necessary to form a message at once and times larger than the width of the microcomputer used, for example, if it is necessary to reduce the speed by 60 times, it is necessary to form a sixteen-bit message, and Since a computer is equal to sixteen, the problem arises of entering a message of higher size into a micro-computer (this problem also arises in a number of other cases). In this case, the communication of the message is carried out with individual words whose width is equal to the width of the microcomputer used, Teh is the discharge message generated in the h-digit register of the analyzer 3 is read in 1t-bit words, where vri is the bit used a micro-computer, with the help of K h - impulses of a collision,

coming from the first shift register 42 through the switch 6.1 (6.2) through the elements And 21 groups. Before reading the first layer

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It is necessary to read the start code of the message generated in the code generator 7 to read the beginning of the message being read, which facilitates the processing of the received message in the micro-computer.

All necessary commutations of the first counter, the first 6.1 and the second 6.2 switches, the former 7 code and the first shift register 42 are carried out before the work begins (for this purpose you can use toggle switches or pushbutton switches).

In register 15 of analyzer 3, an i-bit message is generated, if there is 1 in it, then a readiness impulse is generated that goes to the control bus. Next, a microcomputer pulse triggers a shift register 42, the first read pulse of which reads the word containing the information about the address code of this message before the first read message in the probe.

the first message in the probing and the code of the beginning of the message, the third is the first of the K words that make up the message, the fourth is the second of the K words, and so on. until all the h C words are read, i.e. all messages, with the last pulse, all elements of the first analyzer are set to the zero state. The second analyzer works in the same way.

Thus, a positive effect in the device is achieved by using a read switch allowing interfacing with different types of micro-computers due to reading the required bit size from the analyzer register, using the read switch and generating the start code of the message. Computer messages of any magnitude, by schitshan-razh

 in words where

The message to tTv is the word width determined by the width of the microcomputer used, and reading the code of the beginning of the message before reading (or simultaneously with) the first word of the message in order to simplify further processing of the received message in the microcomputer. When using the proposed device, it is possible

interfacing with different types of microcomputers, as well as the ability to enter messages into the microcomputer of any size, 4to reduces the speed of information input the required number of times.

Claims (1)

Invention Formula Device for entering information on the author. No. 1109732, characterized in that, in order to expand the field of application of the device by interfacing with heterogeneous The computer, the first and second switches and the shaper code are entered into it, the first inputs of the first and second switches 7 are connected to the corresponding outputs of the estimated trigger, the second inputs are connected to the corresponding outputs of the first shift register, and the codes from the additional inputs of the first and second analyzers respectively The input of the code generator is connected to one of the outputs of the first-i shift register, and the outputs - to the inputs of the elements of the OR group. Run a / y Editor N. Volovik Compiled by I. Alekseev Tehred N. Bonkalo Proofreader A. Obruchar Order 1614/55. Circulation 671.Subscription VNIIPI USSR State Committee for inventions and discoveries 113035, Moscow, Zh-35, Raushsk iab., d. 4/5 Branch PPP Patent, Uzhgorod, Proektna St., 4