SU661249A1 - Digital level meter - Google Patents

Description

(54) DIGITAL LEVELER

Claims (1)

The invention relates to a measurement technique and a mossset. It is used in systems for continuous measurement and control of the level of electrically conductive media. The digital level gauge of electrically controlled media containing a channel level sensor, two frequency dividers, a resolver, a linearization device, a pulse meter, a display device, and a control unit are known. In the specified device, the level code is obtained by converting the frequencies of the measured and k6r-g reciever channel of the sensor in time intervals, their subtraction, the functional conversion of the differential difference generated into a number of pulses with its subsequent conversion into a position code}. The presence of a large number of intermediate transformations leads to the fact that the known level gauge has significant hardware costs. The purpose of the invention is level control. The goal is achieved by the fact that the level gauge is equipped with two lo. and connected between a corresponding output of a two-channel sensor and a switching circuit, interconnected by a control signal generation circuit and a memory unit connected to a series-connected reversing counter, a single counter, the counting input of which is connected to the reference frequency bus, and a trigger, output which is connected to the inputs of the mentioned logic circuits And, while the counting inputs of the reversible counter are connected to the switching circuit, the output is connected to the display device, and the output Botko control signals are connected to inputs of a reversible counter, subtractor counter to the switching circuit to the input of the flip-flop and the display device. The drawing shows a block diagram of a digital level gauge. The device contains a two-channel sensor 1 level, a circuit 2 of generation of control signals, two logic circuits AND 3 and 4, a switching circuit 5, a memory block of the coefficient B, reversing 7 and subtracting G 8 counters, trigger 9 and display device 10. Measuring FX and compensatory F; sensor channels 1 pbdlyk: enn to the inputs of the circuits and 3 and 4, the outputs of which are connected through the switching circuit 5 to the summing and subtracting inputs of the reversible counter 7, and the second inputs to the single output of the trigger 9, the input of the URT.O trigger 9 is connected to the bus full subtractive counter 8, the counting input of which is connected to the reference frequency bus FQ, and the input code bus is connected to the code output of the reversing counter 7. The latter is connected to the block of 6 PM coefficients connected to the inputs Cd, Q via the input KVO bus. ... S1, Scheme 2 You Work Pack Aulus to dux signalbv. Outputs, s, q, j, (j, q, “SignN (3.cxEMy 2 are connected respectively to the reversible counter 7 and the subtractive counter 8, the display device 10 to the input of the Set 1 trigger 9 / to the switching circuit 5.; The output of the level gauge is a display device at which the code of the level is indicated. To form a code at the output of the proposed gauge, linearly related to the relative level value, the principle of invariance is used in its construction: according to KofopoMy, the computing device of the level gauge realizes the dependency g ), (And. About -; Ao / max with her about modern time linearization performed by reproducing the polynomial H-PmUV-Ka Z4a.) Jz -... ..., (2) approximating the dependence (inverse of function (1). The level gauge of electrically conductive media is a cyclic number of cycles m in a cycle is determined by the degree of the polynomial (2). The generation of control signals (: j, -q ,, QQ, Q, ... NO. and the control of the sequence of operations performed in each tack of airborne: gains to the control output circuit 2 to their sigHaJioB. Code selection No |. simulating coefficients a., - (1-0.1 ...), is carried out by signals Qg, G |, ... Q The codes are recorded in counters 7 and 8 at the moments of signal arrival (and respectively. At the moments of recording, the feed pulses clock F, FO to the inputs of the counters are canceled. In each cycle, at the beginning of the 1st cycle from memory block 6, counters 8 and 7 are entered, respectively, the codes NQ and. The code N is recorded through counter 8. Trigg 9 with the arrival of the impulse (time io) is set to the beginning of the cycle in a single state. During the 1-g6 cycle the code M is deducted from the subtracting counter 8 impulses In terms of frequency F over time, tr: t -t O p where -fc is the moment of zeroing of the counter 8. At the output of flip-flop 9, a time interval is formed with a duration of tr, which is filled with pulses of frequency F and coming from the level sensor. the output of the circuit AND 3 forms the number of pulses, and the circuit and 4 - the number of pulses that arrive through the switching circuit 5 to the summing and subtracting inputs of the reversible counter 7.: As a result of adding the incoming pulses N and N1 with the code. Md in the reversible counter 7, a code is formed ..- .., ..,., - .. ...:;,. : n ..- N ..- N ..- (F, -F,) Г, -ь ipc. MX, Noixn NaniH At the beginning of the 2nd cycle, the code K p is rewritten into subtractive counter 8, and a code is written into counter 7 from memory block 6. Similarly, during the 2nd clock cycle, a code is generated in the counter 7. N 2PC-- 2X 2 XO -) V-2 Since (1gcLa. - 2 F Pn, am-i / FO SPC- (O ™ "C.-,) After tti cycles in the reversing counter 7, a result code is generated .- .i,:. р Н - tcc-C at T, n, -.) Proportional to the polynomial (2). At the end of the cycle, the code is transmitted when a signal arrives at the display device 10, and the formation process is repeated i. The signs of the coefficients are taken into account by recording the number-pulse K.ODOV formed at the output of circuits 3 and 4 to the summing and subtracting inputs of the reversible counter t, which are switched by means of circuit 5. The level measurement accuracy is required, the counters 7 and 8 are selected and the selection the necessary degree of the approximate field. . DETAILED DESCRIPTION A digital transducer comprising a two-channel level sensor and a display device, which also, in order to simplify the device, is equipped with two AND logic circuits connected between the corresponding two-channel sensor output and a switching circuit connected I go by a control signal generation circuit and a memory unit connected to a series-connected reversing counter, an output counter, the counting input of which is connected to the reference frequency bus, and a trigger, output to torogo connected to the inputs of said AND logic circuits In this case, the counting inputs of the reversible counter are connected to the co-switching circuit, the output is connected to the display device, and the outputs of the control signal generation circuit are connected to the inputs of the reversible counter, subtractive counter, to the switching circuit, to the trigger input and the display device. J Sources; information taken into account in the examination 1, The principle of {5variance in measurement technology, M, Nauka, 1976, p. 185. one .