SU736124A1 - Multichannel frequency integrator - Google Patents

Description

(54) MULTICHANNEL FREQUENCY INTEGRATOR

one

The invention relates to the field of automation and computer technology and can be used to calculate the storage and output to the communication channel of integral values of various physical quantities, the instantaneous values of which are fed to the input jcTpoflcTBa in the form of continuous frequency / x signals.

Frequency integrators are known that contain a voltage frequency converter, a baseline value storage unit, a subtractor, and a cumulative triggered counter flj.

However, the use of such integrators in the conditions of a considerable integration time duration is impractical due to their extremely inefficient and unreliable operation with possible interruptions in the supply voltage.

The closest to the invention is a multi-frequency and frequency integrator containing a source of reference frequency, the main pulse generator connected

the output to the first input of the control key connected by the second input to the output of the control trigger in the connected output via a control magnetic step counter to the first input of the control trigger, the second input of which is connected to the output of the auxiliary pulse generator, and a number of. integration tax, each of which contains an input-to-frequency converter that is connected via a counting unit to the first input of the subtractor, the output of which is connected to the driver input; a magnetic step meter J connected by an output to the first input of a static trigger, and an Output key connected by the first input to the output of a static trigger, the second inputs of the output keys and the first inputs of magnetic step counters

20 channels integration connected to the output control yuschetch} key, the second inputs of static channels triggers integration connected to the output upravp kltsvgo KfapHHTHoro stage counter, and second inputs you readers poschslyucheiy to the output reference frequency source, wherein kazhdoth yield) sootv15tstvuyuschogo channel trigger integrating said coupled its second input Magnetic Stuetche Counter of the same channel of integration t2j. However, such a device has a small power supply and ensures the storage of accumulated information during any interruptions of the supply voltage, does not allow the simultaneous formation of integral values of the parameters but the separation of channels separate the cyMMapiiyro value of the integral over the number of channels. The purpose of the invention is the extension of the class of problems solved by the integrator to the possibility of determining the total value of integrals accumulated on a number of channels. The goal is achieved by the fact that a frequency and frequency integrator containing the reference frequency reference, the main pulse generator, the back ground, the connected input to the first control input to the control input connected to the control input, and the control input to the control panel. , enpack counter to the first input; / control trigger, the second (.) input KijTopOiO is connected to the external / iy ecjio pulse generator, and a number of input channels, which can be converted from the sockets) The stack, connected via a counting unit, to the first subtractor's output, the output of which is connected to the input side of the device with a plastic card, nodusyuchenny output to the first input of the static trigger, and connected to the output key connected to the static trigger of the i-type i trigger with the i-type i trigger with the i-adapter; input / current input keys and the first inputs of magkitshkhkh step counters of integrators channels connected to the output of the controls, a dummy key. the second inputs of the static triggers of the integration channels are connected to the output of the control) magnetic step counter, and the second inputs are read connected to the output of the reference frequency source, triggers, shift register and the OR element are added, and the gum from the additional T hey | The terrain is connected to the second input, a step-by-step counter meter from the corresponding integrative channel, the first input is integrated to the output of a single channel, and the second input is connected to the corresponding output of the shift register connected by the input of the main pulse generator, and the inputs of the IP element connected by the output to the second input of the magnetic step counter of the integration parameter of the total parameter are connected to the outputs of the additional triggers. The drawing shows a block diagram of the device. A multichannel frequency integrator in each channel integrating serially connects converter 1 of the input signal to frequency, scaling unit 2, subtractor 3, under the keyboard, the second input to source 4 of the reference frequency, driver 5. In addition, in each channel there are series-connected magnetic step counter 6, a static trigger 7, an output key 8. The device also contains a main and auxiliary generator 9 and 10 pulses, a control-type-step meter, 11, an output connection Connected with the second inputs of the static triggers Tis, the first input of the controlling trigger 12, which is connected to the generator 10 by the second input, and output to one of the inputs of the control key 13, the other input of which is connected to the output of the main generator 9, the output of the key 13 is connected to the second the inputs of the keys 8, the first NOT inputs of the counters b and the input of the counter 11. The outputs of the fop / flippers 5 in the required channels are connected to the first inputs of the additional triggers 14, the second inputs of which are connected to the corresponding SHMIs of the shift register 15. The output of the flip-flops 14 is connected to the second inputs of the corresponding counters 6 and the inputs of the element OR 16. When there is no need to add integral values over the pdz channels, additional triggers 14 are not installed through these channels. and the outputs of forkedars 5 are directly connected to the second inputs c4eTtmKOB of these channels. The device operates as follows. In the initial state, the trigger is kept closed by the keys 8, the pulses from the main generator 9 pulses do not pass into the counter. 7 The magnetic state of the cores in each meter 6 is determined by the accumulated pulses received before that by the cores Additional counter 11 is in the initial state (zero).

To read the accumulated numbers to the second input of the trigger 12, a trigger pulse is supplied from the generator 10, which translates the trigger 12 into such a state that the key 13 is opened and the pulses from the pulse generator 9 begin to pass to the inputs of all counters 6 and 11. At the moment of occurrence the overflow pulse from any counter 6, the corresponding trigger 7 is thrown, opening the key 8, the pulses from the pulse generator 9 are received until the overflow pulse of the counter 11 sets the trigger 7 for all channels to the initial state. At the same time, the flow of pulses to all counters 6 and I stops.

The number of pulses transmitted through the corresponding key 8 is equal to the number accumulated in the counter b of this channel. In this case, the initial state of all counts 6 ultimately remains the same, since the capacities of the basic and control units 6 and 11 are the same.

The summation of the integral values of the axial parameters is as follows: The pulses from the output of the formers 5 are triggered by the triggers 14, which are sequentially polled by the replica 15. When a pulse of the register 15 arrives at some cocked trigger 14, the latter returns to its original state and impulse from the trigger output entered in the corresponding counter 6. Triggers 14 are also cocked while simultaneously receiving pulses from the outputs of the formers 5 and the register 15. Often, polling register 15 is chosen much more pulse repetition frequency output generators 5, so no error summation. The use of the invention allows, in addition to integrating the values of individual parameters, also to carry out a continuous (in real time) summation of the integral values of the parameters across several channels into the required counter, which is an advantage of the device than the known multi-channel frequency integrators. -the invention Multi-channel frequency integrator containing a source of reference frequency.

the main pulse generator connected to the first input of the control key connected by the second input to the output of the controlling Tpifrrepa and connected to the output via a control master step counter to the first IN 5, the control trigger, the second input of which is connected to the output of the auxiliary pulse generator , and a number of integration channels, each of which contains an input-to-frequency converter, connected via a scaling unit to the first input,: that of the subtractor, the output of which is connected to the input m shaper magnetic stage counter coupled output to the first input of the static latch, n output ktoch first input to an output of the static latch wherein the second inputs of the output switches and the first inputs mapdatnyh STZ entatyh counters channels integration connected to the output control klyula, second inputs Static triggers it-gygrirovan channels are connected to the output of a control magnetic step-by-step counter counting, and the second inputs of the pulling devices are connected to the output of a reference frequency source that differs it, that, in order expansion classifica- ca integrator problems solved by further determining the total velisch1ny HiiTerpanoB, p zu nakaplivaetyh of channels, and further introduced ngegrator-;; triggers, shift register, and the element IL1--1, each of which up to positive triggers are connected to the second input of the magnetic step counter counter of the corresponding integration channel, first to the output of the forklift of the same channel and integrated cable, and the second input to the corresponding output of the shift register connected by the input to the output of the main generator. pulses, and the inputs of the element OR, connected by an output to the second y input of the map step counter of the integration channel of the total parameter, are connected to the outputs of additional triggers. Source information taken into account during the examination 1. A. L. Gzfevich et al. Automation. Processing of chromatographic information. M., Energie, 1973, p. 6.9. 2. USSR author's certificate 385288 KL / G About Q 7/18, 197J prototype).

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Claims (1)

-Claim A multi-channel frequency integrator comprising a reference frequency source, 124 b the main pulse generator, connected by the output to the first input of the control key, connected by the second input to the output of the control trigger and connected by the output through the control magnetic step counter to the first input of the control trigger, the second input of which is connected to the output of the auxiliary pulse generator, and a number of integration channels, each of which contains a converter of the input signal into a frequency connected through the conversion unit to the first input of the subtractor, the output of which is connected to the input m of the former, a magnetic step counter connected by the output 'to the first input of the static trigger, and an output key connected by the first input to the output of the static trigger, the second inputs of the output keys and the first inputs of the magnetic step counters of the integration channels connected to the output of the control key, the second inputs of the static triggers integration channels are connected to the output of the control magnetic step counter, and the second inputs of the subtractors are connected to the output of the reference frequency source, distinct The fact is that, with the extension circuit of the class of problems solved by the integrator by additionally determining the total value of the integrals accumulated over a number of channels, additional triggers, a shift register, and an OR element are additionally introduced into the integrator, and each of the additional triggers is connected by an output to the second input of the magnetic a step counter of the corresponding integration channel, the first input to the output of the shaper of the same integration channel, and the second input to the corresponding output of the shift register connected to along with the output of the main pulse generator, and the inputs of the OR element connected by the output to the second input of the magnetic step counter of the integration parameter integration channel are connected to the outputs of additional triggers.