SU1059691A1 - Device for measuring telegraphy rate - Google Patents

Abstract

A DEVICE FOR MEASURING TELEGRAPHIC SPEEDS containing a reference oscillator, a key, an indicator, an input pulse shaper, the output of which is connected via a frequency divider to the input of a single vibrator and directly to the reset input of the counter, the outputs of which are connected to the p / parallel EOfix input. Channel 3, each for which pax consists of a sequentially connected trigger and an element AND, characterized in that,. In order to shorten the measurement time, a channel frequency divider and a channel selector common for all channels with the shortest burst duration are introduced into each of the n parallel channels, the output of each channel frequency divider connected to the second input of the And element and to the corresponding input of the channel selector c the shortest parcel duration, the output of the reference generator is connected via a key to the counter input of the counter, the output of the input pulse shaper is connected to another key input, to the inputs of the initial installation triggers and to the third inputs of the elements. And whose outputs and output of the one-shot are connected / connected to the Corresponding 1 (named inputs of channel frequency dividers, and the output of the channel selector with the shortest sending time are connected to the inputs of the indicator.. О: п с: о

Description

The invention relates to radio engineering and can be used in measuring radio engineering installations. A device for measuring the speed of wiring is contained, which contains a pulse generator, a parcel quantization unit, a shaper of reference parcels, a display unit, comparison units, an analyzer of excerpts of reference parcels, a control counter: the parcel duration, an initial estimate of the duration of an input elementary parcel, averaging blocks neither the duration of the incoming parcels, the shaper of the maximum tolerance of the duration of the input elementary parcel 1}. The disadvantage of this device lies in the low speed due to the fact that the frequency of the reference signal is initially roughly chosen so that the duration of the elementary parcels is within 0.81, 2 b, after which a more accurate change is made. It is also known a device for measuring the speed of wiring, which contains a pulse shaper, an indicator, a differentiating circuit, diodes, triggers, a time stamp generator, keys, counters, an element of time, and decoders 2. The disadvantage of this device is low received from the output of the receiver, the duration of the parcels varies due to noise, fading, changing the gain in the receiving path, etc., which leads to an unacceptable measurement error. The closest to the proposed technical entity is a device for measuring the speed of wiring, containing reference oscillator, key, indicator / input pulse shaper, the output of which is connected via a frequency divider to the input of the one-vibrator and directly to the reset input of the counter through the decoder is connected to the inputs n pars1 parallel channels, each krtorlis consists. out of series connected triggers and elements. The disadvantage of this device lies in the long duration of the measurement process, because the tuning is performed in two stages: first, the coarse tuning circuit operates, with which the generator frequency period approaches the elementary sending duration, after which the pulse phase ring operates adjustments, providing an accurate measurement of the speed of wiring. The purpose of the invention is to reduce the measurement time. The goal is achieved in that a device for measuring the speed of wiring, containing a reference generator, a key, an indicator, an input pulse shaper, the output of which is connected via a frequency divider to the input of a single vibrator and directly to the reset input of the counter, the outputs of which through a decoder are connected to the inputs of parallel parallel channels, each of which consists of a series-connected trigger and an AND element, are introduced into each of the n parallel channels of a channel frequency divider and a channel common to all in the channel selector with the shortest burst duration, with the output of each channel frequency dividers connected to the second input of the And element and to the corresponding bypass of the channel selector with the shortest burst, the output of the reference generator is connected to the counter input of the counter through the key, the output of the pulse generator is connected to another key input, to the inputs of the initial installation of triggers and to the third inputs of the And elements, the outputs of which and the output of the one-shot are connected to the corresponding inputs of the channel dividers Frequencies, and the outputs of the channel selector with the shortest length of the package are connected to the indicator inputs. The essence of the invention is that the duration of each parcel is measured by a counter and then distributed by the decoder through the channels in which the parcel is counted. If the specified number is exceeded during a certain measurement cycle, a logical signal appears at the output of the corresponding channel, then the kangsh with the shortest burst duration appears, and the indicator registers the channel number. FIG. Figure 1 shows a structural electrical circuit diagram for measuring the speed of wiring; in fig. 2 - the same, one of the options for building a channel selector with the shortest burst. A device for measuring the speed of cabling contains an input driver 1 pulses, the output of which is connected in series with a divider 2 frequency and one-shot 3, and a counter 4, the outputs of which are connected to the inputs of the decoder 5. The second (counting) input of the counter 4 is connected to the output of the key 6 , the first input of which is connected to the output of the reference generator 7, and the second input - to the output of the input shaper 1 pulses. The output of the decoder 5 is connected to n parallel channels (the value of n is determined by the number of selection zones, and the width of the zone is determined by the accuracy of wiring speed 1. Each channel contains a trigger 8, an element 9 and a frequency divider 10, the output of which is connected the second input element And 9 and the corresponding input of the selector 11 channel with the smallest length of the parcel, the outputs of which are connected to the indicator 12. The first and second inputs of each channel trigger 8 are connected to adjacent outputs deshif Rhatore 5 am I beginning and end selektirue my zone). The output of the input form of the body 1 pulses is connected to the third (installation) inputs of the channel dividers 10 frequency. The selector 11 contains the element NOT 13, the elements AND 14 and OR-NOT 15 and the element NOT 16 connected according to the presented scheme (Fig. 2 /. First (the counting begins on the left the input of the selector 11 is connected to the first output through the element NOT 13. The rest the inputs are connected to the corresponding outputs via the series-connected ElementNE 13 and the AND 14 element, the remaining inputs of each AND 14 element are connected to all the inputs of the selector 11 with smaller numbers directly or through the OR-NOT 15 elements. The inputs of the first OR-15 element are connected to element outputs NOT 13 of the first four channels, the inputs of the second element OR are NOT connected to the outputs of the elements NOT 13 of the following three channels through the element NOT 16 to the output of the first element OR NOT 15. Fig. 2 shows the diagram of the selector 11 with step 7. Increasing the number p is produced by adding groups of three channels (the last group may be incomplete.) The device operates as follows: A telegraphic signal arrives at the input of the pulse generator 1, for example, from the output of the receiver's frequency detector (not shown). Shaper 1 extracts only positive voltage drops and forms short pulses of them, therefore the S150 short interval between them is 2 T, where Sglin is 1 / B, and B is the wiring speed. Due to the fact that between the output pulses there is a link and there is a pause between the premises, the distortion of the telegraph signal shape and the change in the response threshold of the driver 1 do not affect the measurement accuracy. Each output pulse of the driver 1 sets the triggers 8 and the counter 4 to the zero state and locks the key b. At the end of the pulse, key 6 is opened and the reference pulses from the output of the reference generator 7 are fed to counter 4, calculated to measure the longest pulse of the sequence. The decoder 5 contains ft output pairs (corresponding to the number of channels j. At the first output of each pair, a pulse appears when its duration, calculated by counter 4, coincides with the beginning of the selection zone, and at the second output, when it coincides with the upper boundary of the selectable zone. Impulse the start of the selection zone overturns the corresponding trigger 8, and the pulse of the end of the zone returns it to its original state. Thus, during the operation of the counter 4, the triggers 8 successively operate, while at their outputs pulses corresponding to certain selection zones of the input pulses. The output pulses of the trigger 8 allow the signals to pass through the elements of AND 9. At the initial time, the frequency dividers 10 are set by the output pulse of the one-vibrator 3 to the initial state, which allows the signals to pass through the second input. elements 9. At the moment of the appearance of the next pulse at the output of shaper 1 in counter 4, the duration of the previous interval is recorded. If at the same time one of the flip-flops 8 is in an overturned state, then the duration of the measured interval falls into the selection zone and the pulse from the output of the shaper 1 through the corresponding AND 9 element enters the channel frequency divider 10 and is recorded. As a result, frequency dividers 10 take into account the parcels that fall into the respective zones, and are essentially integrators, incremental. hs ps tolerance of the device. The division factors of frequency dividers 10 are chosen for the sake of eliminating false positives and are usually selected from 2 to 10, and they can be different for 1). As soon as the number of parcels in a certain zone exceeds the division factor of the channel divider 10 frequency, at its output the logical unit switches to a logical zero and the passage of pulses through element 9 of this channel. A logical zero at the output of the frequency divider 10 is preserved until the end of the measurement cycle, indicating that the specified number of messages in the corresponding zone has been exceeded. During the counting process, logical zeros appear at the outputs of other channel frequency divider 10.

Of all the kangshovs, the selector 11 selects one channel, with the shortest duration of a selectable pulse, which is registered by the indicator 12.

The measurement cycle is set by divider 2 frequencies and single-oscillator 3 based on the statistics of the durations of the measured signal. At the end of the cycle, all channel dividers 10 frequencies are set to the outgoing state, and the measurement process begins again.

The selector circuit 11 (Fig. 2 is constructed so that, if a logical zero appears at one of the inputs, it

blocks all right channels corresponding to large durations of selectable pulses. The first group consists of four channels, the remaining channels are grouped by tr. Such a construction is optimal with the existing elementary base.

Thus, in the proposed device, the measurement time is significantly reduced with high accuracy of determining the wiring speed. In addition, the device is characterized by high noise immunity. When separate false or random pulses appear, the device does not respond to them.

An important advantage over other known devices is the simplicity of the proposed design, which makes setting up and adjustment of the device much easier.

Claims (1)

A DEVICE FOR MEASURING TELEGRAPHING SPEED, containing a reference generator, a key, an indicator, an input pulse shaper, the output of which through a frequency divider is connected to the input of a one-shot and directly to the counter reset input, the outputs of which are connected through the decoder to the inputs of L. parallel channels, each of which consists of a sequentially connected trigger and an AND element, characterized in that, in order to reduce the measurement time, a channel frequency divider and a channel selector common to all channels with the smallest sending duration, and the output of each of the channel frequency dividers connected to the second input-element And and to the corresponding input of the channel selector with the smallest sending duration, the output of the reference generator through a key connected to the countable mu input of the counter, the output of the input pulse former is connected to another key input, to the inputs of the initial installation of triggers and to the third inputs of the AND elements, the outputs of which and the output of the one-shot, are connected to the corresponding inputs. J channel frequency dividers, and the outputs of the channel selector with the smallest sending duration are connected to the indicator inputs. >