SU558414A1 - Device for generating a test signal - Google Patents

Description

This OR is the text sensor output, and the clock and reset inputs of the binary counter are the text start and reset inputs, respectively.

The drawing shows a structural electrical circuit of the proposed device.

A device for generating test text contains the main and control sensors 1 and 2 of the text, respectively. The outputs of the main sensor 1 directly and the control sensor 2 through the delay element 3 are connected to a comparison circuit 4 connected to the error recording unit 5, as well as a TI driver 6, the output of which is connected to the corresponding inputs of the sensors 1, 2 and to the control inputs of the comparison circuit 4 and the delay element 3. In addition, between the output of the imaging unit 6 and the additional inputs of the sensors 1, 2 included the synchronization node 7.

The main and control sensors 1 and 2 of the text are made in the form of a binary counter 8, the information outputs of which are connected through decipherors 9, 10 to the corresponding inputs of the OR 11 element, and the control output to one of the inputs of the switch 12, the other input of which is connected to the reset input binary counter 8, and the outputs of the switch 12 are connected to the enable inputs of the decoders 9, 10, and the output of the element OR 11 is the output of the sensor 1 (2), and the inputs of clock pulses and reset of the binary counter 8 are the start and reset inputs of the sensor 1 (2) complies twine

The device works as follows.

The synchronization node 7, according to the pulses received from the imaging unit 6 TI, periodically generates a signal, under the action of which the smallpox and control sensors 1 and 2 are reset. These states are chosen in such a way that the text generated by the control sensor 2 is several characters ahead of the text generated by the main sensor 1. The test signal generated by sensor 1 directly enters the comparison circuit 4. The signal of the sensor 2 flows to the comparison circuit 4 through the element delay 3, compensating for the set shift in time. Due to such a circuit, even when external disturbances (power jolts, mechanical forces, interference, etc.) cause malfunctions in both sensors 1, 2 at the same time, erroneous symbols arrive at the inputs of comparison circuit 4 at different times, detected and recorded using block 5.

In each of the sensors 1, 2 in the initial state, the switch 12 connects the decoder 9 to the counter 8. According to N clock pulses, the counter 8. / V changes the binary combination at its outputs, and the output of the sensor 1 (2) is output. to be transmitted at the beginning

test word. Then the switch 12 connects the decoder 10 to the counter 8, and the test text itself passes to the output of the sensor 1 (2). After a specified number of periods of operation of the counter 8, a pulse appears at the output of the synchronization node 7, which determines the length of the test word. This pulse sets the counter 8 to the initial state. Then the whole process is repeated many times.

In order to avoid false alarm at the beginning and end of the test words, the synchronization node 7 sends to the delay element 3 a control signal, which also sets it to the initial state. Due to this, during the first contacts after setting the output of the delay element 3, the same combinations arrive as on the output of the main sensor 1.

Claims (2)

1. A device for generating a test signal containing the main and text control sensors, the outputs of which are connected to a comparison circuit connected to the error recording unit, as well as a clock pulse generator (TI), the output of which is connected to the corresponding inputs of the main and control text sensors, characterized in that, in order to increase the reliability of the test text generated , a delay element and a synchronization node were introduced, with the synchronization node being connected between the output of the TI generator and additional inputs of the main and control text sensors, and in The output of the text control sensor is connected to the comparison circuit through the element delays, and the output of the imaging device TI with the control inputs of the comparison circuit and the delay element. 2. The device according to claim 1, characterized by the fact that the main and control sensors text is made in the form of a binary counter, the information outputs of which are connected via decoders to the corresponding inputs of the OR element, and the control output to one of the switch inputs, the other input of which is connected to the reset input of the binary counter, and the switch outputs are connected to the enable inputs of the decoders, and the output of the OR element is the text sensor output, and the inputs of clock pulses and a binary counter reset are the start and reset inputs of the text sensor, respectively. Sources of information taken into account in the examination of the invention 1. Gurov V.S. et al. “Transmission of Discrete Information and Telegraph. M., “Holy, 1974, p. 286-288. 2. USSR author's certificate No. 158593, cl. P 04L 11/08, 1968 (prototype).