SU1148089A2 - Device for measuring physical quantities with change continuously - Google Patents

Abstract

DEVICE FOR MEASUREMENT OF NON-CHANGING PHYSICAL HEALTHCARRIAGES of the auth. No. 489202, which is so that, in order to expand the functionality, a deo-firator of the measurement range and a controllable switch are entered into it, each of the three dimensions of the measurement range connected to the caddm output of the reverse the counter, respectively, and the gate - with the control input of the switch, the first input of which is connected to the measuring accelerator, the input is connected to the local bus, and the connected is connected to the recorder, at -. than the depufrator - consists of the first: the element OR, the generator and three drivers, each of which contains an inverter, three elements AND, the second element OR, a waiting multivibrator and a trigger, and the input of the driver is the input of the inverter, vol. connected to the first input of the first element I, the output of the inverter is connected to the first input of the second element I, the outputs of the first and second elements I connected to the inputs of the second signal; 4ent OR, respectively, the output of which is connected to the trigger input, the reverse output of which is connected to the second input of the first element And, and the direct output - with the second input of the second element And through the waiting multivibrator with the first input of the third element And, the third inputs of the first and second (Of the elements And are combined and connected to the first input of the generator, .. -. Ora input of the third AND gate a second input key K generator vkod third AND output of the shaper is connected to the input of the first element nepBbN OR 4 second and third inputs which communication 00 are attached to the outputs of the second and third generators, respectively. 00 to

Description

The invention relates to measuring means in the study of physical processes and can be used in various automation systems According to the main author. No. 489202 news device for measuring continuously varying 4 zoic lines; containing a parametric sensor, measuring amplifier, recorder, connected in series, power supply, matching unit, reversible counter, switch unit, two comparison circuits, Connected via inputs through matching unit with the output of the measuring amplifier, and the outputs of the comparison circuits are connected via a reversible counter and the switch unit is connected to a parametric sensor, which in turn is connected to the source pi via a co mutation unit tani 1J. However, this device does not give information about the value of the set range. The aim of the invention is to expand the functionality. This goal is achieved by the fact that in a device for continuously variable physical quantities there is a parametric sensor, measuring amplifier, recorder connected in series, a power source, a matching unit, a reversible counter, a switch unit, two comparison circuits connected by inputs through the matching unit to the measuring output the amplifier, and the codes of the comparison circuit are connected via a reversible counter and switch unit with a parametric sensor, which in turn is connected through a switching unit A power range decoder and a controllable switch were added to the power source, with each input of the code decoder measuring range connected to each output of the reversible counter, respectively, and the output to the control input of the switch, the first input of which is connected to the measuring amplifier, the second the input is with the ground bus and the output is connected to the recorder, the decoder consists of the first OR element, a generator and three drivers, each of which contains an inverter, three AND elements, and the second the OR pulse, the waiting multivibrator and the trigger, wherein the input 91 of the driver's house is the input of the inverter combined with the first input of the first element AND, the output of the inverter is connected to the first input of the second element AND, the outputs of the first and second element AND are connected to the inputs of the second element OR, respectively, the output which is connected to the trigger input, the reversible. output of which is connected to the SECOND input of the first element I, and the direct output - to the BTopbSM input of the second element I and through a waiting multivibrator with the first 1L4 input of the third element I, t The network inputs of the first and second elements AND of all drivers are combined and connected to the first input of the generator, the second input of the third element I is connected to the second input of the generator, the output of the third element I is the output of the driver connected to the first input of the first element OR Zana with the outputs of the second and third formers, respectively. FIG. 1 shows a block diagram of the device; in fig. 2 - timing diagrams for the operation of the device. A device for measuring continuously varying physical quantities contains a power source t, a parameter-sensor 2, a switch unit 3, a measuring amplifier 4, a reversible counter 5, a matching unit 6, comparison circuits 7 and 8, a control switch 9, a decoder 10 of the range measurement, driver 11, element OR 12, generator 13, inverter 14, elements AND 15, 16, standby multivibrator 17, elements SHSh 18 and AND 19, trigger 20, recorder 21. Power supply 1 via switch 3 unit provides power to a parametric sensor 2 connected to measuring amplifier 4. The magnitude of the signal of the parametric sensor is directly proportional to the magnitude of the supply voltage. The output signal of the measuring amplifier is simultaneously supplied to the controlled switch 9 and the matching unit 6. The matching unit detects the output signal of the amplifier and eliminates the influence of the connected load on the characteristics of the amplifier. In technical design, the matching unit is a series connection of a voltage repeater with a high input resistance and a two-half-cycle rectifier. The output signal (U) of the matching unit is fed to the inputs of comparison circuits 7 and 8. Shhsh 7 comparisons with decreasing U. at the time of the VPK. Equal with the reference voltage U «f produces a pulse signal X, and the comparison scheme 8 with increasing U at the moment of equality with the reference voltage, a pulse signal is selected. The values of the reference voltages are selected as follows: bd, the same nominal value of the output voltage of the amplifier is taken, and for boron Uo the relative coefficient of change of the measuring range value is taken Reklyuchenii. Schemes 7 and 8 of the comparison in the technical field. Represent a succession of a sequential connection of a Wygt trigger. and pulse waveformer. The pulsed signals from the comparison circuits are fed to the reversible counter 5. Reversing counter 5, which is an automatic device, serves to create potential, control signals Y, U, ..., U.,. Potential output signals. reversible counter 5 is fed to the corresponding "1 controlled inputs of the switch unit 3. There is a one-to-one correspondence between the number of potential control signals of the reversing counter 5, the number of keys in the switch 3 block, the number of output, the power supply voltage and the number of switchable measurement ranges. Dn deciphering the information recorded on the recorder 21 when changes are made during the registration process, the measurement range must be in-. a change in the measurement range. The formation of this information and ensuring its recording is carried out by the decoder 10 of the measuring range, to the inputs of which potential output signals of the reversible counter 5 are received, since there is a one-to-one correspondence between the signals of the counter and the value of the established measuring range. 10 provides a pulse form of information decryption. at which each value of the measurement range corresponds to a certain number of pulses. The information and control signals of the decoder 10 are fed to a controllable switch 9, to the output of which the recorder 21 is connected, which is any self-recording program. The device works as follows. In the initial state, before the start of the measurement process, the reversible counter 5 generates a control signal Y, which sets the minimum measurement range. Let the physical quantity U | f be applied to the input of the measuring device. Continuous recording of the measured signal on the recorder 21 occurs as long as Ugj ,, Uo2. At the moment of equality i.c, oi, the comparison circuit 8 is activated and under the action of an impulse, the output signal Ug appears at the output of the reversing counter 5, which reduces the voltage of the parametric sensor. They become smaller and) and form a control signal for the 9 decoder 10 of the measuring range, which, through a controlled switch 9, performs a two-time short-term interruption of the recording of the measured signal. Signal formation in deciphering occurs as follows. At the direct output of flip-flop 20, a signal triggers a stand-by multivibrator 17, producing a pulse of such a duration that produces the output of the OR 12 circuit of two adjacent oscillator pulses 13. After this, the measured signal is continuously recorded until one of the situation occurs: U .. or and Since the situation is Ug, and has already been described, consider the situation Q, Uoi In this case, the comparison circuit 7 is activated and under the action of a pulse at the output of the reversing counter 5 in V e control signal D, which increases the supply voltage parametric encoder 2 (Ujj, becomes larger), and a decoder 10 generates a measurement range control signal to tions performed through the control switch 9 emy single short prorshanie recording measured signal. The signal is generated in the decoder 10 in the following way. Under the action of the signal Y on the direct output of the flip-flop 20, a signal appears that starts a waiting multivibrator 17, which produces a 1-pulse of such duration.

which provides the output at the output of the circuit OR a 12-odd pulse generator, 13.

Thus, the use of the proposed device allows to expand the functionality of the device by obtaining information, p the range in which the measured signal is located.

Claims (1)

DEVICE FOR MEASURING CONTINUOUSLY CHANGING PHYSICAL QUANTITIES according to ed. ft 489202, including the fact that, in order to expand the functionality, a measuring range decoder and a controllable switch are introduced into it, and each of the three inputs of the measuring range decoder is connected to each output of the reverser active counter, respectively, and the output is with the control input of the switch, the first input of which is connected to the measuring amplifier, the second input is connected to the ground bus, and the input is connected to the recorder, pri-. how the decoder consists of the first OR element, a generator and three formers, each of which contains an inverter, three AND elements, a second OR element, waiting for a multivibrator ^; and a trigger, the shaper input being the input of an inverter combined with the first input of the first element And, the inverter output is connected to the first input of the second element And, the outputs of the first and second elements And are connected to the inputs of the second element OR, respectively, whose output is connected to the trigger input , the reverse output of which is connected to the second input of the first element And, and the direct output - to the second input of the second element And and through the waiting multivibrator with the first input of the third element ^ And, the third inputs of the first and second elements in AND combined and connected to the first input of the generator, the second input of the third element And connected to the second input of the generator, the output of the third element Й is the output of the driver connected to the first input of the first OR element, the second and third inputs of which are connected to the outputs of the second and third formers respectively.