SU1012441A1 - Method and apparatus for decoding information - Google Patents

Abstract

1. A method of decoding information, concluding that the input is three-interval input; the signal is converted into an output parallel signal by generating pulses according to its voltage drops), and the initial three-interval input signal is first converted into an intermediate serial signal for each differential voltage, then from the intermediate serial signal form a zero, single and synchronizing signals, which are converted into the output paralleles si He drove about the fact that, in order to increase the reliability, the zero signal is formed from the first consecutive signal for each voltage drop, except for ne iBoro input serial. ; a three-interval signal, a single signal is formed at interval 1, FROM from the beginning of voltage drops, if the interval between voltage drops is greater than 1, FROM, a single signal is formed instead of zero, if the interval between voltage drops is more than 1.5T, then a synchronizing signal is formed by combining zero and single signals. 2. A device for decoding information containing the first pulse shaper, whose input is from: one with the bus input three-interval serial signal, and the output is connected directly to the first input of the first element I, through the first single-vibrator and the second pulse shaper connected in series, to the first input the first element of the first element OR, and through the second one-vibration and the third pulse generator connected in series, to the first input of the second element I, the second input of which is connected with the setpoint bus and the second input of the first element AND, and the output is connected to the second input of the first element OR and through the inverter to the third input of the first element AND, distinguishing it with the fact that, in order to increase the reliability of operation, 4 the second the OR element and the shift register, while the output 4 of the first element AND is connected to the input of the second element OR and the zero input, the shift register whose outputs are connected to the output 1 buses, and the single input to the output i of the first element OR and the second I input the second element OR whose output is connected to a shift register synchronization input.

Description

The invention relates to the decoding of information received via the direct communication channels in the form of a sequential three-interval signal and can be used in devices for reproducing discrete information from a moving magnetic carrier. There is a known method for decoding information that transforms an input serial three-interval signal into an output parallel signal. by forming impulses by its voltage drop (current) 11. The disadvantages of this method are low decoding reliability. The closest to this is a method of decoding information, according to which an input serial three-interval signal is transformed into an output parallel signal by generating pulses along its voltage drops (current), and first the input serial three-interval signal is converted into an intermediate serial signal through its each voltage drop, then from the intermediate serial signal form zero, single and synchronizing signals, which are converted into output n are parallel signal 2 3 A disadvantage of the known method also provides low reliable decoding. The purpose of the invention is to increase the reliability of decoding information. This goal is achieved in that, according to the method of decoding information, which implies that the input serial three-slot signal is converted into an output parallel signal by generating pulses according to its voltage drops), the input serial three-slot signal is first converted into an intermediate serial signal via its each voltage drop, then from the intermediate serial signal form zero, single and synchronizing signals, which are form a parallel signal to output a zero signal is formed from the intermediate signal at each successive drop voltage than the first input serial trehintervalnogo signal unit signal is formed: in interval 1, OT from start voltage drops if the interval. between voltage drops greater than 1, OT, a single signal is formed instead of zero, if the interval between voltage drops is more than 1.5T, then a clock signal is formed by combining zero and single signals. In the device for implementing the method of decoding information containing the first pulse shaper, the input of which is connected to the bus input three-interval serial signal, and the output is connected directly to the first input of the first element I, through serially connected, the first one-shot and the second pulse shaper - to the first input of the first element OR, and through series-connected second one-shot and third pulse generator to the first input of the second element, And, the second input is is connected to the setpoint bus: and the second input of the first element is AND, and the output is connected to the second input of the first OR element and through the inverter to the third input of the first AND element, the second OR element and the shift register are entered, and the output of the first AND element is connected to the first input of the second OR element and the zero input of the shift register, the outputs of which are connected to the output buses, and the single input - to the output of the first OR element and the second input of the second OR element, the output of which is connected by the synchronization input of the shift register. In FIG. 1 shows a timing diagram explaining the nature of the method for decoding information; in fig. 2 is a block diagram of an apparatus for implementing a method for decoding information. A device for implementing the method of decoding information contains a pulse shaper 1, the input of which is connected to bus 2 of an input serial three-interval signal: and the output is connected directly to the first input of element 3 AND, via serially connected one-shot 4 and shaper 5 pulses to the first input of element b OR and through serially connected one-shot 7 and pulse shaper 8 - to the first input of element 9 I, the second input of which is connected to the setpoint bus 10 and the second input of the element This 3 And, and the output is connected to the second input of the element 6 OR and through the inverter 11 - to the third input of the element 3 And, the output of which is connected to the first input of the element 12 OR and the zero input of the shift register 13, the outputs of which are connected to the output buses 14, and a single the input is to the output of element 6 OR and the second input of element 12 OR, the output of which is connected to the synchronization input of the shift register 13. The device for implementing the method of decoding information works as follows. A serial input three-interval signal is applied to the input of the pulse generator 1 (Fig. 1a). At the output of the pulse shaper 1, a pulse is generated for each differential of the input sequential three-interval signal (Fig. 1b). Then, one-shot 4, the resulting pulse sequence is extended in duration to a value of .1, FROM (FIG. 1B) and then a pulse generator 5. on pulses based on negative differences of the extended sequence, pulse signals are generated (FIG. 1D). With the single-oscillator 7, the sequence from the output of the pulse former 1 is extended in duration to a value of 1.5T (Fig. 1d), and then the pulse former 8 is generated in a positive manner, the differential signals of the extended sequence produce pulse signals (Fig. 1e). Bus 10 of the setpoint, with a setting signal of negative length of 0.25T, the beginning of which coincides with the first voltage drop of the input signal (Fig. 1g), eliminates the first shaped pulses received at the output of the driver of 8 pulses (Fig. 1h) and at the output of the element 3 And (Fig. 1k). A single signal is produced at the output of the OR 6 element (Fig. 1i. A zero signal is produced at the output of element 3 I (Fig. 1k), and the output of the i2 element OR is generated a synchronizing signal (Fig. 1l). The single and zero signals arrive at a single and to the zero inputs of the register shifts 13. The synchronization signal is fed to the synchronization input of the shift register 13. These signals control the shift register 13, at the output of which the desired signal is produced (Fig. 1m. Thus, in the present invention compared to prototype is achieved increasing the reliability information decoding process by decoding disambiguating trehintervalnogo serial signal due to a change of the decoded pulses to the opposite effect due .pomeh, Tak as a process of forming informatsionshlh signals does not depend, from the surface of the synchronization signal.

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Claims (2)

1. The method of decoding information, which consists in the fact that the input serial three-interval signal is converted into an output parallel signal by generating pulses from its voltage / current drops), and at the beginning, the input serial three-interval signal is converted into an intermediate serial signal from its each voltage drop , then from the intermediate serial signal form zero, single and clock signals that are converted into an output parallel signal, about t In order to increase reliability, a zero signal is formed from an intermediate serial signal for each voltage drop, except for the first input sequential three-interval signal, a single signal is generated after interval 1, FROM the first voltage drop, if the interval between voltage drops is greater than 1.0T, a single ”signal is formed instead of zero if the interval between voltage drops is more than 1.5T, then a synchronization signal is formed by combining zero and single signals fishing. 2. A device for decoding information containing a first pulse shaper, the input of which σόι is single with the bus of the input sequential three-interval signal, and the output is connected directly to the first input of the first element And, through the first one-shot and the second pulse shaper connected in series .- to the first input of the first OR element, and through the second one-shot and third pulse shaper connected in series - to the first input of the second AND element, the second input of which is connected to the bus settings and the second input of the first AND element, and the output is connected to the second input of the first OR element and through the inverter to the third input _{(of the} first AND element, characterized in that, in order to increase the reliability of operation, 'the second OR element and shift register are introduced into it wherein the output of the first AND element is connected to the first input of the second OR element and the zero input, a shift register, the outputs of which are connected to the output buses, and a single input to the output of the first OR element and the second input of the second OR element, the output of which connected to the input of the shift register synchronization.