SU514438A1 - Combination Time Code Decoder - Google Patents

Description

The invention relates to the field of technology and can be used1) in systems for the transmission of discrete messages.

The time code combinational decoder is known, it contains a diode array, two input and two controllable color counters, two time interval converters into the number of pulses.

In order to reduce equipment and increase resolution, the proposed decoder additionally introduces a front selection and rear edges extraction scheme, the inputs of which are combined and connected to the input signals, and the outputs are connected to the inputs of the input ring counters, respectively, BTopoii and each successive 1, and 11 the outputs of the first input ring counter are connected respectively to the interrupted, idle 1 inputs of time interval transducers into the number of terminals whose starting inputs are connected respectively A with the first and every 1) | m P () following the output of the second input number 1) of the target meter, and the outputs of the time interval converters in the number of pulses are connected to the inputs of the corresponding control ring meters, the outputs of which are connected to the input H1 of the diode. matrices.

The drawing shows the function (Fig. 1 is a schema of the proposed decoder.

2

The combination time code decoder consists of a front edge selection circuit 1 and a back edge pulse separation circuit 2 of a code combination, the inputs of which are combined and connected to the bus 3 input signals, and the outputs are connected to the inputs of the first and second input ring counters 4 and 5 each with a counting factor equal to the number of pulses decrypted code

combinations. The second and each subsequent outputs of the first input ring counter 4 is connected to the inhibit inputs of the first or second converters 6 and 7 of the time interval in the number of pulses, starting

the inputs of which are connected respectively to the first and each subsequent, except for the last, outputs of the second input ring counter 5. The transducer outputs 6 and 7 of the time interval to the number of implants) are connected respectively to the first and second controllers; they are annular counters 8 and 9, each with a factor bills per unit are greater than the number of different values that can take time intervals

between adjacent pulses in a decipherable code combination, and with outputs connected to the input buses of the diode array 10. The combination decoder is temporary

codes for decrypting three-pulse

time codes works as follows.

Before the arrival of the code combination, the initial installation of the control ring counters 8 and 9 is carried out, after which the last outputs are excited for the nph. The signal from the front-edge selection I scheme, coinciding in time with the leading edge of the first input pulse, is fed to the input of the input code of counter 4, shifting the common to state 1, causes the signal to appear at the first output of this counter, not connected to any device.

The signal from the rear (2) p011t allocation circuit 2, corresponding to the falling edge of the first pulse, switches the second input ring counter 5 to the state "1", and the signal from the first output of this counter will trigger the converter 6; 1a time into the number of pulses.

At the moment when the input signals of the leading edge of the second pulse of the code combination arrive at the bus 3, the first input KOJHine counter 4 is transferred to the state "2, and the signal from its second output inhibits the operation of the first time interval converter 6 to the number of pulses, resulting in the number of pulses vivshhs on vych.de converter 6 is equal to the number of gradations of the interval between the nerve in the second |) input impulses.

In a similar way, the help of the irroporo converter 7 for the time interval into the number of pulses is converted into the corresponding number of pulses between the second and third input pulses.

The output signals of the 6 and 7 time interval in chis: 1o pulses, arriving respectively at the inputs of control ring counters 8 and 9, set them in such a state when the first ring counter 8 has an excited output with a number corresponding to the duration of the time interval between the first and second pulses of the input code to be decoded are coded, and for the second ring counter 9, between the second and third pulses.

From the outputs of the control ring counters 8 and 9, signals arrive at the diode

matrix 10, which in this case is the output.

In general, the combination decoder is multi-stage, and the operation of each stage is identical in the same way.

Form u l a p 3 about b reet s n II

A combinator time code encoder containing a diode array, two in (} one and two unipolar ring counters, two time interval converters into a number, and pulses, differing

By the fact that, in order to reduce equipment, equipment and new Enlarge JUNK, her ability, additional schemes for allocating front and back frO} 1t were added, respectively, the inputs of which are connected to the input signal bus, l outputs connected to the inputs of the input ring counters, respectively , the second and each subsequent HejMioro outputs of the input ring counter are connected respectively to the supervisors of the time interval in numerical pulses, the starting inputs of which are connected respectively to the first and each osledu10 CIM output of the second input of the ring counter, and B1 converters 1hody

the time interval in the number of pulses is connected to the inputs of the corresponding control ring meters, the outputs of which are connected to the input H1 terminals of the diode array.