SU780195A1 - Code transmitter - Google Patents

Description

.1 The invention relates to the field of automation ...., The flj code transmitters containing a drive, a pulse generator, a counter and a decoder are known, the outputs of which are connected to the output buses through the corresponding triggers. The disadvantages of the known device are low reliability of operation. The closest technical solution to this is a code tran smitter containing a serially connected drive, a pulse generator, a first counter and a descrambler, the outputs of which are connected via eooTBetcif triggers to the output of Hbw buses, each of which: through a corresponding driver, is connected to one of input aymen and OR, the others of which are connected to the outputs of the third to last desykhyfratora, the output of the element OR is connected to the counting input of the second counter, the installation of which is connected to the second The output of the de-encoder is .. The poor state of the known device is the low reliability of operation. The aim of the invention is to improve the reliability of the code transmitter. This goal is achieved due to the fact that in the code TpaHCf: HTTere containing a serially connected drive, a pulse generator, the first counter and a decoder, the outputs of which are connected to the output buses through the corresponding triggers, each of which through the corresponding driver is connected to one of the inputs the OR element, the other inputs of which are connected to the outputs of the third to the last decoder, while the output of the OR element is connected to the counting input of the second counter, whose installation input is connected to the second The output of the decoder is entered in series connected keys, each of which consists of a series-connected capacitor, resistor and inverter, and in each key a common connection point of the capacitor and a resistor is connected via a diode to the corresponding output of the second counter, the first output of the decoder is connected to the first key capacitor .

and the output of the last key inverter is connected to the input of the accumulated owner.

The code transmitter circuit is shown in the drawing and contains the following elements: serially connected drive 1, generator 2 pulses, first counter 3 and decoder 4, the outputs of which are connected to output buses 6 through corresponding triggers 5, each of which through the corresponding driver 7 is connected to one of the inputs of the OR element 8, the other inputs of which are connected to the outputs of the decoder 4c from the third to the last; the output of the output OR 8 is connected to the counting input of the second counter 9, the installation input of which is connected to the second output of the decoder 4; consistently connected keys 10, each TH1 cat 6РЫ5

consists of a series-connected capacitor 11, resistor 12 and inverter 13. In each switch 10, the common connection point of capacitor 11 and resistor 12 is connected via a diode to the corresponding output of counter 9 The first output of decoder 4 is connected to capacitor 11 of first switch 10, and output the inverter, the last 13 key 10 is connected to the input of the drive 1 ..

Code transmitter works as follows.

At the beginning of the code cycle, counters 3 and 9 are in the initial state in the triggers 5, logical units and the drive 1 charge xen are recorded. General The torus of 2 ipulses, receiving power from accumulator 1, produces pulses with a frequency of a multiple of the power supply network. These pulses arrive at the input of the counter 3, and as a result of the Measure of its filling at the outputs of the decoder 4 at the time points determined by the code structure, control pulses appear that arrive at the installation inputs of the triggers 5. At the end of the cycle the counters 3 and 9 is reset, and in triggers 5 logical units are again recorded. The control pulses from the output of the decoder 4have yay element OR 8. There are also pulses from the formers 7. From the cell OR In the pulses are fed to the input of the counter 9. To the end of the cycle, when the counter 3 comes to its original state, from the first output of the decoder 4, a zero pulse is applied to the input of a chain of successively connected keys 10. If there is a zero potential at the corresponding output of the second counter 9, then under the influence of this

a pulse is charged by the capacitor 11 of the first switch 10. The termination of the pulse causes a negative potential on the right side of the capacitor 11 regarding the common pole-power source, under the influence of which a single pulse briefly appears at the output of the inverter 13. As a result, if there is a zero potential at the corresponding output of the counter 9, the capacitor 11 of the second switch 10 is charged. If at all the outputs: x. the decoder 4 has a zero potential, then at the output of the last key 10 a short pulse occurs, under the influence of which the charge of accumulator 1 occurs, which ensures the operation of the generator of 2 pulses. A zero pulse from the second output of the decoder 4 sets the counter 9 to the initial state.

Claims (2)

1. Author, USSR certificate №581582, cl. H 03 K 17/02, 05.06.74 2. USSR author's certificate W 632085, class H 03 K 17/02, 07.12.76 (prototype) ....