SU590798A1 - Telemetering system adaprive switch - Google Patents

Description

one

The device belongs to the field of telemetry and can be used in telemechanics, long-distance communications, in automatic control systems.

Adaptive telemetering system switches are known, containing in each channel an approximation error converter, keys, analog-to-digital converter, maximum signal detector, designed to reduce the redundancy of the measured data and to level the compressed data in time 1.

A disadvantage of the known switches is the complexity of the technical implementation.

Also known is the closest in technical essence to the invention an adaptive switch of a telemetering system containing a sensor in each channel, an output connected to the inputs of an approximation permissiveness converter and a key, the output of which is combined with the outputs of the keys of other channels and connected to the input of the analog-digital converter. The output of the coded channel approximation error converter is connected with the corresponding input of the maximum signal detector, the outputs of the analog-digital converter are connected to the first inputs of the reader, whose output is connected to the output of the adaptive switch, and the outputs of the counter to the second inputs of the block

the readings and inputs of the decoder, the outputs of which are connected to the first input of the And element and the control input of the key in each channel, the output connected to the control input of the approximation error converter. The device also contains a clock pulse generator.

The disadvantage of the known switch is the considerable complexity of the hardware implementation.

The purpose of the invention is to simplify the switch and increase its power.

This is achieved by introducing a comparison unit, a trigger, an AND element and an additional key in each channel, the inputs of which are connected to the output of an approximation error converter, into the switch. The outputs of the additional switches of all channels are combined and connected to the first input of the comparator unit, the second input of which is connected to the output of the maximum signal detector, and the output connected to the single trigger input, the zero input of which is connected to the control output of the reading unit. A single trigger output is connected to the second inputs of the And element of all channels and to the control input of the analog-digital converter, the zero output of the trigger to one input of the And element, the other input of which is connected to the output of the clock generator. Output element and

connected to the input of the counter, the outputs of the decoder to the control inputs of the additional keys of each channel.

The drawing shows a block diagram of the switch.

The switchboard contains sensors 1 in each channel, approximation capacity converter 2, key 3, additional key 4, element 5 and maximum signal detector 6, comparison unit 7, decoder 8, counter 9, element 10, clock generator 11, trigger 12, readout unit 13, analog-to-digital converter 14,

The switch works in the following way.

Upon completion of the reading of p, reddush, its readout, the readout unit 13 outputs a signal to the zero input of the trigger 12 so that at the zero output of the trigger a signal appears "1, allowing the passage of pulses from the generator I to the counter 9. With the help of the decoder 8, keys 3 and 4 are alternately opened and the voltage of converter 2 is alternately connected to one of the inputs of comparison unit 7, proportional to the approximation error according to the selected algorithm. At the inputs of the detector 6 of the maximum signal, the outputs of the converter 2 are permanently connected, and at the output of the detector 6 there is a signal corresponding to the maximum value of the approximation error.

The coincidence of the voltage values at the inputs of the comparator unit 7, i.e. when the channel is located with the maximum error, the unit 7 outputs the signal "1 to the single input of the trigger 12 so that at the zero output of the trigger the signal" O prohibiting further passage impulses from the generator to the counter 9. The counter and the decoder are stopped on that channel, the error of which signal approximation is greatest, the analog-to-digital converter 14 is started and the analog signal from the selected sensor is converted into a code and after conversion parallel parameter code and address to the sequential block 13 read information is transmitted to the communication channel. Upon completion of the Transmission, the readout unit outputs a signal to the trigger 12, allowing further passage of pulses from the generator 11 to the counter 9, and the cycle is repeated.

The use of a switch allows for a small hardware cost to obtain a uniform stream of compressed data.

Claims (2)

1.Fremke A.V. Telemetry. M., “Higher School, 1975, p. 232-234. 2. USSR author's certificate number 225036, cl. G 08 C 19/28, 1967.