SU930733A1 - Discrete information transmitting and receiving device - Google Patents

Description

is) DEVICE OF THE DAY OF TRANSMISSION AND RECEIVING DISCRETE INFORMATION

The invention relates to an epegrosis technique and can be used in data transmission systems operating with messages of limited duration and using frequency shift keying.

A device is known for transmitting and receiving discrete information containing on the transmitter side an information sensor whose output is connected to inputs of a code converter, the first output of which is connected via a frequency modulator to the first input of a transmitter, the second input of which is connected to an output of a control unit, to the first input the output of the starting block is connected, the transmitter output being connected to the antenna, and on the receiving side a signal conversion unit whose output is connected to the input of the decision block, frequency detector, whose input is connected to

The output of the receiver, the input | of which is connected to the antenna ll.

However, the known device has f i i3Kyo validity.

The purpose of the invention is to increase the reliability of the device.

The delivered circuit is achieved by the fact that the device for transmitting and receiving discrete information contains on the transmitting side an information sensor, which is connected to the inputs of the code converter, the first output of which through the frequencies | 1st modulator is connected to the first input of the transmitter, the second input of which is connected to the output of the control unit, to the first input of which the output of the starting unit is connected, the output of the transmitter is connected to the antenna, and on the receiving side the signal converting unit whose output is connected to the input of the decision unit , a frequency detector, the input of which is connected to the output of the receiver, the input of which is connected to the antenna, on the transmitting side, two pulse formers are inputted, while the output of the first pulse former is connected to the corresponding the input of the converter code, the second output of which is connected to the input of the second pulse shaper, the output of which is connected to the second input of the control unit, the first input of which is connected to the input of the first pulse shaper, and on the receiving side entered the delay elements, key, threshold unit and amplitude detector, the output of which through the threshold unit is connected to the input of the first delay element, the output of which is connected to the first input of the key, the second input of which is connected to the input of the signal conversion unit and the output of the second delay element, the input of which is connected to the output of the frequency detector, the input of which is connected to the input of the amplitude detector, and the output of the key is connected to the zero potential bus.

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

The device for transmitting and receiving discrete information contains on the transmitter side 1 sensor 2 information, code converter 3, frequency modulator 4, gyred sensor 5 antenna 6, control unit 7, starting block 8, first 9 and second 10 drivers, and on receiving side 11, a signal conversion unit 12, a resolving unit 13 / having two outputs 1 and 15, a receiver 16, an antenna 17. a frequency detector 18, an amplitude detector 19, a threshold unit 20, a first 21 and a second 22 delay elements, a key 23.

The device works as follows.

At a certain point in time, the starting block 8 is triggered, and the signal from its output is fed to the input of the first pulse shaper 9 and the first input of the control block 7. 3 as a result of this, the transmitter 5 is turned on, and the first pulse shaper 9 enters the active state and after a time determined by the parameters of its elements produces at its output a trigger pulse for the converter 3 of the code.

prior to the start of operation of which, from its first, the output to the input of the frequency modulator k receives the zero potential and the transmitter 5 through the antenna 6

emits a signal at frequency {(start of transmission) to the communication channel.

At the appropriate point in time, the process of converting the parallel code specified by information sensor 2 to the serial one begins. A sequential code signal appears at the first output of a 3-code converter in the form of positive pulses with amplitude and Logical units or negative (logic zeros) with amplitude. Information pulses are separated by pauses, during which the potential of the first output of the code converter is zero.

In the case of G1 transmission of logical units, the transmitter 5, through the antenna 6, transmits to the communication channel a signal at the frequency f, and when transmitting logical zeros and

pauses - signal at frequencies i and i

, respectively.

The process of converting the code to the non-transmitting side 1 lasts up to a specific point in time.

Claims (1)

Q The length of the time interval is determined by the width of the parallel code and the conversion rate, which depends on the parameters of the converter 3 of the code. At the appropriate time, the converter 3 of the code generates an exit signal at its second output, and sets a zero potential at the first output, and the transmitter 5 generates a transmission termination signal at frequency i j. The signal from the second output of the converter 3 of the code turns on the second pulse shaper, which after a time, depending on its parameters, generates a pulse, the arrival of which to the second input of the control unit 7 will turn off the transmitter 5. Signals of the transmitting side 1 received at the receiving side 11 through The antenna 17 and the receiver 16 are fed to the input of the frequency detector 18 and the input of the amplitude detector 19, where frequency and amplitude image detection is performed. Transmitting side 1 does not work at the time corresponding to the time slices, and the output of the frequency detector .18 and the amplitude detector: detector 19 contains voltages (respectively). At a certain moment of time, transmitter 5 is turned on at transmitting side 1 and transmits a transmission signal to Frequency {|,, ending at a given point in time, as a result of which a voltage U | gj appears at the output of frequency detector 18, the magnitude and sign of which depends on the magnitude and sign of mutual tuning of the transmitter 5 and the frequency detector a 18, and the voltage Ujg appears at the output of the amplitude detector 79, indicating that the channel is transmitting a message. Since the voltage UiQp exceeds the response threshold UjOpp of the threshold unit 20, the threshold unit 20 is triggered and its output A signal that is delayed by the control input of the key 23 is delayed by the first delaying element 21. In a given time interval, the input of the block 12 through the closed key 12 is over the shorted point of zero potential. Since the time delay of the second delay element is chosen to be several About times less than the delay time of the signal o., in the first element 21 of the delay f2r, j, i t2, then by a certain time the signal will be at its output. After the key 23 is opened, only the voltage of the variable component of the signal is supplied to the input of the block 12, and the base of the information pulses are located on the zero potential line. The selected information signal after amplification by the block 12 goes to the crucial block and is compared with stable voltage levels and. , and Uc (j and selected for logical zeros and ones. Logical zeros of the sequential code are allocated at the output t4 of the decision block 1 and logical units at the output T5 of the decision block 13- In the absence of information Impulses at the input of block 12 at outputs I and 15 are set to zero potential. Thus, the application of the proposed device in control systems of distributed objects from a single control center over the radio channel (for example, in an automated control system of open-pit technology objects, the accuracy of mutual adjusting the transceivers of the system, increase the reliability of information exchange in the system, which will improve the economic performance of the control object. Reducing the requirements for the accuracy of setting the transceiver equipment simplifies the equipment, reduces its cost and the cost of operation and repair. Apparatus of the Invention A device for transmitting receiving discrete information, comprising, on the transmitter side, an information sensor whose outputs are connected to inputs of a code converter, the first output of which is a frequency modulator connected to the first input of the transmitter, the second input of which is connected to the output of the control unit, to the first input of which the output of the starting block is connected, the transmitter output being connected to the antenna, and on the receiving side a signal converting unit whose output is connected to the input of the decision unit, h A 100-meter detector, the input of which is connected to the output of the receiver, whose input is connected to the antenna, is characterized in that, in order to increase the reliability, two pulse formers are inputted on the transmitter side, while the output of the first pulse conditioner is connected to the corresponding input of the code converter, the second output of which is connected with the input of the second imaging unit, the output of which is connected to the second input of the control unit, the first input of which is connected to the input of the first impulse generator, and at the receiving one There are delay elements, a threshold block and an amplitude detector, the output of which is connected to the input of the first element of the delayed1 through the threshold unit; the output of which is connected to the first input of the key, the second input of which is connected to the input of the signal conversion unit and the input of which is connected to the output of the frequency detector, the input of which is connected to the input of the amplitude detector, and the output of the switch is connected to the zero potential bus. Sources of information taken into account in the examination 1. A. Nanovtsev, A.P. Introduction to digital radio telemetry. N., Energie, 1967, p. 212-21.