SU960534A1 - Device for registering data - Google Patents

Description

(54) DEVICE FOR REGISTRATION OF INFORMATION

The invention relates to digital computing and is intended, in particular, for recording on the recorder of geophysical information in digital form. A recording device is known that contains comparison circuits, a reference / frequency generator connected to a tape drive mechanism, keys with writing electrodes, a key control unit, a matching circuit, a tag formation unit and a step voltage generator, the output of which is connected together with the output of the tag generation unit with a tape drive mechanism D. The disadvantages of this recording device are its complexity, since it contains the inflow circuit, a tag formation unit and a step voltage generator, the inability to register knowledgeable information. The closest in technical essence is an output device, graphs, containing two registers, the outputs of which through a comparison unit KOflOBj amplifier, follower motor and gearbox are connected to the guide screw of the tape drive mechanism connected to the input of the first register 2.. . The disadvantages of this device are low speed and low accuracy when recording information, as it contains mechanical components: tracking motor, gearbox and guide screw. The purpose of the invention is to improve the accuracy and speed of the device. This goal is achieved by the fact that a multiplexer, a decoder, is inserted into a device for recording information containing a register of a serially connected tape drive mechanism and a control unit. the code generator, the code converter / first and second pulse distributors, the first input of the register is connected to the first output of the control unit whose second and third outputs are connected to the corresponding ones. the inputs of the first and second pulse distributors, the output of the first pulse distributor is connected to the first multiplexer input, the second input of which is connected to the register output, the second KOTopdro input is the device input, the multiplexer output is connected to the decoder input, the output of which is connected to the generator input codes whose input is connected to the first output of the second pulse distributor, the second output of which is the output of the device, the output of the code generator is connected to the input of the code converter, turn coupled to an input of the deck, the second output of the connections with which the soybeans second input control .bloka. ; FIG. 1 shows a block diagram of the proposed device for registering information; in fig. 2 is an example implementation of the control unit; in fig. 3 an example of the implementation of the coder; in fig. 4 is an example of recording digital information. The device (Fig. 1) contains the register L,:. Multiplexer 2, decoder 3, shaper 4 codes, converter 5 codes, tape drive mechanism (LPM) -6, control block 7, first distributor 8 pulses, second distributor 9 pulses, device ID input, device output 11. The control unit 7 (Fig. 2) contains a driver 12 pulses whose input through an AND 13 element, a word counter 14 in the array, a decoder 15, a delay element 16 and an NOT element 17 which is connected with the element 18 and a driver 19 connected through a counter 20, a decoder 21, a delay element 22, and a differentiating circuit 23 to trigger 24 and an output of control block 7. The control unit operates as follows. The sweep sweep (line) pulse coming from LSM 6 is transformed by shaper 19 into a command that changes state of pulse distributor 9, sets trigger 24 to one state and enters counting input of counter 20 to 9. The decoder 21 decrypts a predetermined state of counter 20 The command from the output of the decoder 21 through the delay element 22 and the differentiating circuit 23 sets the trigger 2k and the counter of 14 words to the zero state in the array and writes 1 to the first bit of the shift register of the distributor 9 pulses, while the decoder 15 through the delay element 16 opens the element I / 13. The pulses from the output of the driver of the 12 pulses, produced from the alternating voltage of the pit and the synchronous motor of the LMC and multiplied in frequency, flow through the element 13 to the register 1, writing to it another array of output information and input counter a 1, which counts the incoming pulses. The decoder 15 decrypts the code corresponding to the number of words in the array and through the delay element 16 closes element 13 and opens element 18 through element NOT 17. The next end of line impulse passing from LSM 6 sets the trigger 24 to state 1 from the output of shaper 19, allowing the passage of pulses through the element 18 to the distributor 8 pulses, which allows the character-by-character passage of the output information from register 1 to the decoder 3, the Former k codes (Fig, C) contains the elements OR 25-32, the outputs of which through the elements AND 33-A5 and the element s OR 46-50 are connected to unit 5. The device operates as follows. A vertical sweep (from top to bottom) in a tape drive mechanism (LSM) 6 is carried out by continuous or discrete movement of a storage medium, for example electrothermal paper, and a horizontal sweep (in rows), for example, using a knife and auger rotated by a synchronous motor. Between the screw and the knife is the information carrier. The control unit 7 of the alternating voltage supply of the LPM 6 synchronous motor generates the control pulses and commands necessary for the operation of the electronic units. The command from the output of the distributor 9 pulses, coming through terminal 11 to an external device (information source), serves as a request to issue5 9 an external device to the input of register 1 via terminal 10 of the code corresponding to the next mass of output sign information and at the command of block 7 The control is written in register 1. Each character (symbol), which enters the input of register 1, comes in the form of a code combination, for example, in the form of a binary code. The distributor 8 pulses per command of the control unit 7 permits the character-by-character passing of the output information from register 1 through a multiplexer (code switch) 2 to the decoder Z. Deshifter T decrypts the next value of the symbol (sign) and issues the appropriate command to the input of the driver k codes, to the second the input of which comes from the distributor 9 pulses command corresponding to the current horizontal scan (line). Further, by the command of the LPM 6 about the end of the line, the storage medium is shifted one discrete down, and the control block 7 generates a co-. a command that changes the state of the pulse distributor 9, while at the moment of the pulse distributor 9 there appears a command corresponding to the next horizontal scan line, etc. FIG. An example is given of recording digital information carried out by progressive scan of characters to be outputted (lines С ..., Сл) The spaces between the numbers are indicated by П, П, ..П, and the intervals in which characters are recorded are indicated by T, T, ..., T.) φ commands corresponding to these symbols, forms a distributor of 8 pulses. The various types of information in the example are separated from each other by dots (P, P, etc.). Each character (digit) is divided into four columns (K, K2, K, K). The shaper k codes for commands coming from blocks 3 and 9 generates at the output a parallel four-digit code corresponding to the value of the columns in this line for the given digit, in accordance with expressions (1) - (3) (below). For example, for the number 9 in the first, fifth, and ninth lines (Cr, C, Cd) i pMnpyers, at the output of the former, 4 codes are code 1111, and in the second, third and fourth lines - code 0001, etc. K, K, j, K, and K take a single value at the output of the driver l 4 in accordance with the following logical equations: 95 S VV eltr i tr) () V - (,,), Г S (c.C9) t (.d.dg. d9j- () V (, 4a, .da) E: .c ..). () where C. is the number of the 1st row of mountains of the main sweep; dj- (j 0,1, ..., 9) is the value of the character being transformed. The four-digit code (K, K2 Kl) from the output of the driver k is fed to the converter 5 codes, which is). ry converts the incoming parallel code by the commands of the control unit 7 to the serial code, T.rf. pulse sequence at the output of converter 5. The presence of a pulse at the output of converter 5 indicates that this discharge and output of converter 5 is equal to one and vice versa. The pulse sequence from the output of converter 5 is fed to the input of LMP 6, which records them (pulses) on Ginformation carrier. Thus, for each turn of the screw on the information carrier, the current value of all characters of the output array is recorded. Introducing new nodes — a multiplexer, a decoder, a code generator, a code converter, and two impulse distributors — into the output device for signage gives a high speed, since the screw auger rotation period is a fraction of a second; high accuracy of character recording, (the influence of backlash on mechanical transmission is eliminated). The device is easily implemented on digital integrated circuits. Formula for recording information, comprising a register, a sequentially connected tape-drive mechanism and a control unit, characterized in that, in order to improve the accuracy and speed of the Device, a multi lexor, decoder, Code generator, code converter, first and the second pulse distributors The first input of the register is connected to the first output of the control unit, the second And the third outputs of which are connected to the Corresponding inputs of the first and second pulse distributors, the output of the first pulse distributor is connected to the first input of the multiplexer, the second input of which is connected to the output of the register, the second input of which is the input of the device. 9 t8 the multiplexer output is connected to the input of the decoder whose output is connected to the first input of the shaper, the second input of which is connected to the first output of the second pulse distributor, the second output of which is the output of the device, the shaper output of the code is connected to the input of the code converter, the output of which is connected to the input of the tape mechanism, the second output of which is connected to the second input of the control unit. Sources of information taken into account in the examination 1. USSR author's certificate iff 599162, cl. G 01 O 9/00, 1977, 2. Golyshev L, K. Electronic computers. Kiev, State. due to technical literature. 1963, p. 297, fig. 188 (c) (protochip).

Fi &

Claims (1)

A device for recording information containing a register, series-connected tape drive and a control unit, characterized in that, in order to increase the accuracy and speed of the device, a multi-.., encoder, decoder * 0 code, code converter , the first and second pulse distributors, the first input of the register is connected to the first output of the control unit, the second and third outputs of which are connected to ¹⁵ corresponding inputs of the first and second pulse distributors, the output of the first the pulse distributor is connected to the first input of the multiplexer, the second input of which is connected to the output of the register, the second input of which is the input of the device, the output of the multiplexer is connected to the input of the decoder ^ whose output is connected to the first input of the code generator / second input. which is connected ₽ to the first output the second pulse distributor, the second output of which is the output of the device, the output of the code generator is connected to the input of the code converter, the output of which is connected to the input of the tape drive ma, a second output connected to the second input of the control unit.