SU924690A1 - Information input device - Google Patents

Description

(S) DEVICE FOR INPUT OF INFORMATION

I

The invention relates to computing technology and can be used as a device for controlling data entry and coding, and in the electronic class computing computers GVN included in automated systems for collecting and processing information.

The closest in technical essence to the present invention is an input device that contains a serially connected keyboard, a first encoder, a multiplexer and a register, the output of which is the first output of the device, the first and second pulse shaper tn. The special feature of the ECM is the constant participation of the operator Manually entering raw data from the keyboard and pressing the command keys.

In this regard, the performance of the computational work performed on

The ECM is determined not by the speed of its arithmetic logic unit (.MU), but by the time of data input and commands from the keyboard, which is much longer than the ALU cycle.

The purpose of the outset is to increase the speed of the device.

Claims (2)

The set goal is achieved by the introduction of a counter, a decoder, a block of IS elements, a group of elements AND, a second encoder, a control unit, a pulse generator, the first and second elements OR, and an element whose first input is connected to the second output of the first encoder, the second the entrance is with the first you; the control unit stroke, the second output of which is connected to the first input of the first OR element, the second input of which is connected to the output of the element AND, and the output is the second output of the device, the output of the first pulse generator is connected to the second register input, the output of the second pulse former is connected to the first input of the second element OR Agora whose input is connected to the third output of the control unit, and the input is connected to the second input of the multiplexer, the third input of which is connected to the output of the block of OR elements whose inputs connected to the corresponding outputs of elements AND groups, the first inputs of which, with the exception of one, are the inputs of the device, and the second inputs are connected to the inputs of the decoder group, the inputs of the other group of which are connected to the inputs of the second encoder, the output of which is connected to the first input of one of the elements AND of the group , the outputs of the counter are connected to the inputs of the decoder, the output of which is connected to the zero input of the counter and the first control unit input, the fourth output of which is connected to the single input of the counter, the output generator connected to the second input of the control unit, the third input of which is input whisker; troystva. The control unit contains the first and second triggers, the AND element, the third and fourth pulse formers and the inverter, whose input is connected to the C input of the first trigger and is the third input of the block, and the output is connected to the C input of the second trigger, whose O input connected to the D input of the first trigger, the R input of which is connected to the R input of the second Trigger, the output of the third body, and is the first input of the control unit, the non-inverted output of the first trigger is the third output of the control unit, and the invertible output is the first output of the uravleia block, non-inverting the output of the second trigger is connected to the first input of the element AND whose second input is the second input of the control unit and the output connected to the input of the fourth pulse generator, the output of which is the fourth output control unit output. The drawing shows a block diagram of the device. The device contains a keyboard 1, the first encoder 2, multiplexer 3, register k, the second driver 5, the first driver 6, the buffer register 7, the pulse generator 8 control unit 9, the counter 10, the decoder 11, the second encryption-op 12, the element group And 13 , a block of elements OR T, the first element AND 15, the first element ISH 16, the second element I / M 17, the inverter 18, the third pulse shaper V9, the first trigger 20, the second trigger 21, the second element And 22, the fourth pulse shaper 23 The device works as follows. The information in the binary-decimal code is written into the buffer register 7. A synchronization pulse, indicating that the information has been written to the buffer register 7, is fed to the third input of the control unit E. On the leading edge of this synchronization pulse, the trigger 20 of the adding unit 9 is set to one. At the same time, the outputs of the trigger 20 are set to block the keyboard 1 and the control of the multiplexer 3. On the trailing edge of the synchronization pulse, the trigger 21 of the control unit 9 is set to unity. At the same time, the level of the logical unit from the direct output of the trigger 21 permits the pulse reproduction from the generator 8 through the logic element 22 of the control unit 9 to the input of the counter 10 and to the input of the generator 23 of the control unit 9, which generates input sync pulses. Also, on the leading edge of the sync pulse from the first pin (control unit 9 stroke, the input element I 15 receives a signal prohibiting the input sync signals from the second output of the first encoder 2 to the second input of the device, thereby blocking keyboard 1, the third output of the control block 9 through The second IP element 17 to the second input of multiplexer 3 receives a control signal from multiplexer 3, through which the output of a block of elements is connected via the multiplexer 3 to the input of register t. On the falling edge of the synchronous pulse In block 9, the control sets the permission for the passage of pulses from the output of generator 8 to the input of counter 10. According to the leading edge of the pulses arriving at the counting input, counter 1 changes its state.The state of the counter is decrypted by the decoder The decoder 11 converts the binary code of the counter into a decimal Thus, for each pulse, a single control signal is generated at the output of the decoder 11. The outputs of the decoder 11 are connected to the inputs of the PODI encoder commands 12 and the inputs of elements AND of group 13 in such a way that The completion of the counter 10 implements the required input algorithm (sequence of input, information from the buffer register 7 and kman from the encoder 12 command codes). The number of bits of the counter 10 and the volume of the decimator I are determined by the input algorithm (the required control of the mace signals). The last output of the decoder 11 is connected to the inputs of the setpoint to the zero of the counter 10 and the triggers of the control block 9. When the control signal appears at the last output of the decoder 11, the counter 10 and the triggers are set: the control block 9 to zero. In this case, the neipe control unit 9 is in the 6th initial state. For the initial installation of the triggers of the control unit 9 and the counter 10, the shaper 19 located in the control unit 9 serves. Shaper 19 generates a signal of the initial setup when applied to a power voltage device. On the leading edge of incoming pulses from the outputs of the decoder 11, control signals are generated. The control takes place in the following sequence: it is allowed to rewrite a number from buffer register 7 through the group of elements AND 13, the elements OR AND AND multiplexer 3 into the register and; at the same time, the instruction code is encrypted in the encoder 1 of the instruction code (second) in accordance with the feature, coming from the "inputs of the decoder 11 to the inputs of the encoder 1 of the instruction code; it is allowed to rewrite the command code from the encoder 12 command code through one of the AND elements of group 13) the block of elements OR multiplexer 3 into the register. From register k, data and commands arrive at the first output of the device. The output of data and commands is accompanied by clock pulses, which are formed in block 9 of the control FROM the pulses of the generator 8 and from the second output of the block. 9 controls through the logical element-OR 16 arrive at the second) output of the device. The operation of the register is controlled by the first pulse shaper 6 ", the functions of which are similar to those performed by ECMM" manual input mode. At the end of the input program at the output of the deflector 11, a short pulse is generated at the first input of the control unit 9, which prohibits the passage of pulses from the output of the generator 8 to the input 10 and sync pulses from the second output of the control unit 9 to the device output, and the control unit E TC to the original state. This removes the keypad lock 1 and control multiplexer 3 signatures. With the arrival of the next array of information on the synchronization pulse, the input cycle is repeated. An EHEC included in an automatic remix in this way does not lose its independent functions and any calculations can be performed manually on it. The proposed device realizes the automatic input of information into an EFVN, which greatly expands the functionality of the machines of this class, improves the performance of computational work performed on 9KVN, and allows them to be used in automated systems for solving problems associated with simple information processing. Claims 1. An information input device comprising a serially connected keyboard, a first encoder, a multiplexer and a register, the output of which is the first output of the device, the first and second pulse shaper, characterized in that, in order to improve the speed of the device, entered counter, decoder, block of elements OR, group of elements AND, second encoder, control block,. pulse generator, the first and second elements OR, and the element AND, the first input of which is connected to the second the output of the first encoder, the second input with the first output of the control unit, the second output of which is connected to the first input of the first OR element, the second input of which is connected to the output of the AND element, and the output is the second output of the device, the output of the first pulse shaper is connected to the second the register input, the output of the second pulse maker is connected to the first input of the second OR element, the second input of which is connected to the third output of the control unit, and the output is connected to the second input of the multiplexer, the third input of which is dinen with the output of the block of elements OR, whose inputs are connected with. corresponding outputs of elements AND groups, the first inputs of which, with the exception of one, are input to the device, and the second inputs are connected to outputs of the decoder group, the inputs of the other group are connected to inputs of the second encoder, the output of which is connected to the first input of one of the elements AND of the group, counter outputs connected to the inputs of the decoder, the output of which is connected to the zero input of the counter and the first input of the control unit, the fourth output (the second one is connected to the single input of the counter, the generator output is connected to orym input control unit, which is an input to the third input device. 2. The device according to claim 1, wherein the control unit contains the first and second triggers, the element I, the third and fourth pulse shapers and the inverter, the input of which is connected to the C input of the first trigger and is the third the input of the block, and the output is connected to the C-input of the second trigger, The D input is connected to the D input of the first trigger, the R input of which is to the R input of the second trigger, the output of the third driver and is the first input of the control unit, the non-inverted output of the first trigger is the third output of the control unit, and the inverted output is the first the output of the control unit, the non-inverted output of the second flip-flop is connected to the first inlet of the AND element, the second input of which is the second input of the control unit and the output is connected to the input of the fourth pulse generator, the output of which is the second output of the block, the output of the AND element is the fourth output of the control block. Information sources, taken into account in the examination 1. The computer is a computational electronic keyboard on the Spark-12. Technical description 1TS3.050.172.TO (prototype).