SU855649A1 - Data input device - Google Patents

Description

one

The invention relates to computing and can be used in various measurement information systems for the preparation and input to electronic computers of experimental data in scientific research.

A device for processing and inputting experimental data to computers from multichannel code magnetic recorders is known, comprising matching and switching units, time shift compensation, channel selection, time code allocation, data rarefaction, control, code converter, word formation units and conjugation computer

The disadvantage of this device is that it is focused on the interaction with the multichannel code magnetic storage of measurement information registered in the parallel code and does not allow to perceive the experimental data recorded on the magnetic tape using the methods of sequential and multichannel code recording modulation, modified phase modulation, etc.), which are the most promising and highly informative when using magnetic recording in various Data collection and processing systems.

The closest to the proposed technical entity is a device for inputting information, comprising a shaping unit connected to a reproducing unit and

10 control, channel counter, information selection unit and comparison unit, whose inputs are connected to the playback unit, and the outputs to the control unit, another output of the channel counter

5 is connected to the formation unit f2. However, this device does not allow to perceive the experimental information recorded on a magnetic tape by the sequential code recording method and does not decrypt and simultaneously input into the computer a set of information frames recorded on different magnetic tape tracks.

25 serial code.

The purpose of the invention is to increase speed and expand the field of application of the device by entering information from multi-channel drives.

This goal is achieved by the fact that a device for inputting information contains a playback unit, the first output of which is connected to the input of the comparison unit, the output of which is connected to the first, the input of the control unit, the second input of which is connected to the output of the information selector, and the output the first input of the engine forming unit is a serially connected code converter, a synchronization unit, a code generator and a switch, the first output of which is connected to the third input of the control unit and the input The information output block and the second output are connected to the second input of the Miiin-Hoio word shaping unit, the decoder, the input of which is connected to the second output of the code converter, and the output to the second of the switch input, the third, the input of which is connected to the third output of the code converter, input which is connected to the second output of the playback unit, the input of which is connected to the input of the device, the second output of the code generator is connected to the third input of the computer word formation unit, the output of which is connected to the output of the device.

The drawing shows a block diagram of the device

The device contains a playback unit 1, a machine word formation unit 2 — a control unit 3, an information selection unit 4, a decoder comparison block 5, a code converter switch 7, a synchronization unit 9, a driver 10, an input 11 of the device, an output 12 of the device.

The playback unit 1 contains amplifiers shapers. and differentiating amplifiers for each of the n tracks of the magnetic tape, forming triggers, AND and OR circuits, Machine Word Generation Unit 2 contains output registers, control code generation circuit, control circuit, AND elements and OR, Control Unit 3 has a formation circuit clock pulses, controls, display circuit, permit generation unit for issuing machine words to a computer. The information selection unit 4 contains a binary-decimal counter, a comparator, two static registers, display circuits, and controls. Comparison unit 5 includes allocation schemes for a sequential time code, a shift register, two static registers, a comparator, control triggers, AND and OR circuits, Decoder b contains n counters, channel decryption circuits, AND and OR elements, Converter -7 codes for each track of a magnetic tape contains a shift register, a buffer register, a counter

bits, a bits decoder and control circuits consisting of a binary sequential code generation unit, a marker allocation unit and a bit sync frequency generating unit, the first and second outputs of the control circuit being connected to the first and second bits of the shift register and the bit counter, respectively the third output is with the third input of the shift register, the third input of the bit counter is connected to the output of the bit decoder and the first input of the buffer register, the second input of which is connected to the output of the shift register Registers counter output bits are connected to the input bits of the decoder, the output buffer register is output transducer 7 codes, and input control circuit is respectively input transducer 7 codes. The switch 8 incorporates n comparators, an information highway, a control highway, circuits, and OR, a synchronization unit 9 contains a generator, frequency dividers, logic elements.

The shaper 10 of the code contains a firmware control circuit containing a RAM with a capacity of n numbers with a width m (the size m is chosen from the ratio r 2, for which mm in where n is the number of magnetic tape tracks) and the control circuit, as well as a static register , control triggers, controls, elements AND and OR, Input 11 of the device represents n independent inputs of measurement information registered by the follower along the tracks of magnetic drives

The structure works as follows.

Signals, which are continuous arrays of measurement information, recorded by a sequential code in the form of a certain periodic sequence of codes, the set of which represents an information frame, are input to the device's input from the magnetic storage device. The block 1 performs differentiation and signal generation for reconstructing its form of recording on the zero values of the derivative of the signal. The reconstructed signal enters the code converter 7, where it is further processed, consisting in converting the signal first into a binary serial code and then into a parallel one. The signal enters the control circuit of the code converter, which forms the marker signal, which is a special coded sequence — the beginning of the frame, forms a bit synchronous frequency, and converts the signal into a binary serial code. The generated marker signal sets the shift register and bit counter to the zero state and is stored on a special trigger. After that, parallel to the first channel information begins to be formed on the shift register, the bit synchronous bit is shifted from the binary serial code. At the same time, the number of shifted bits in a given channel is counted on the bit counter. When forming in the code counter corresponding to the number of bits of the information channel, the signal from the output of the bit decoder rewrites the contents of the shift register into a buffer register, the bit counter and the shift register are set to the initial state and the unit is added to the decoder b channel counter, which It is also preset to its original state by marker string. Then in the shift register the parallel information code of the second channel is similarly formed, and in the discharge counter the number of its bits is counted. After forming the contents of the second channel in the shift register, it is written into the buffer register and one is added to the channel counter, and the bit counter and shift register are zeroed. The process then periodically repeats.

Similarly, the converter 7 operates with signals along other tracks of the magnetic tape. Thus, in n buffer registers of converter 7 of codes and in n counters of decoder channel b, information is stored to be entered into a computer for the time interval of one channel gap. All this information is output sequentially through switch 8 during a time not longer than one channel gap, on teams shaper 10 codes. For example, when a 1011 code 1011 arrives from the opiFlator 10, a comparator of the 11th track of the switch 8 is triggered, the output of which controls the output of the buffer register information of the code converter 7 belonging to the 11-oP track of the magnetic tape, together with the code of the channel number of the decoder b in inL) line for transmission to block 2 and then to the computer. The time for outputting information from one channel along one of the tracks of a magnetic tape is determined by the ratio

where T is the channel gap time; n is the number of recording tracks on a magnetic tape.

A time interval t is formed in the driver 10 codes. Pre-operative memory of the imaging unit 10 records the codes of the tracks of the magnetic tape, the information from which must be entered into the computer. The driver of the code generator 10 is triggered by a signal from the synchronization unit 9, which starts the firmware control circuit. At the same time, with the interval t, the codes of the numbers of the tracks of the magnetic tape are issued once in the comlutator 8. As a result, the information of the i-th channel over all n tracks (frames) is issued to block 2 and the computer. In this case, the codes of the tracks of the magnetic tape are also issued to the computer, together with the numbers of the channels. Block 9 synchronization ensures synchronous operation of the driver 10 codes and the converter 7 codes. The signal for starting the imager 10 codes is given only at the moment of vryumeni, when the formation of the next channel is completed. In block 9, the converter 7 signals the synchronization of the generator, the frequency of which starts the driver 10 of the code.

The decoder b decrypts the channel numbers and allows you to select only those specified channels whose information is to be processed by the on-computer. The permission signal for the input of a given channel in the computer is formed on the control line of the switch 8 and enters block 3.

The control unit 3 generates the resolution of entering information into the output registers of unit 2 according to the result of analyzing the initial conditions received from blocks 4 and 5, and on the control signals from the output of the switch 8.

Comparison unit 5 is used in cases where a registered time code is received from a magnetic tape. In this case, the block performs the necessary operations for its selection from the sequence of reference pulses or from certain channels of the frame. In the case when the input to the computer is carried out according to a given time code in the interval T, the beginning and T end, the comparison signal of the current and given time codes is sent to the control unit 3, enabling or interrupting the information in the computer. Information selection block 4 discretes the information by frames, controlling its passage to block 2. The operation of this block is controlled by block 3.

The use of the invention allows, in contrast to the known, to expand the functionality of the device and improve its performance when inputting into a computer from

Claims (1)

Claim A device for inputting information, comprising a playback unit, the first output of which is connected to the input of the comparison unit, the output of which is connected to the first input of the control unit, the second input of which is connected to the output of the information selection unit, and the output - with the first input of the machine word generation unit, which differs the fact that, in order to improve performance and expand the scope of the device by. input information from multichannel drives, a serialized code converter, a synchronization unit, a code generator and a switch are introduced into it, the first output of which is connected to the third input of the control unit and the input of the information selection unit, and the second output to the second input of the machine word generation unit , a decoder, <n the input of which is connected to the second output of the code converter, and the output is to the second input of the switch, the third input of which is connected to the third output of the code converter, whose input is one with the second output of the rendering unit 15, whose input is connected to the input device, the second output of the code generator is coupled to the third input unit for generating the machine word, the output of which so20 one with the output of the apparatus.