SU667896A1 - Device for measuring relative values of difference between velocities - Google Patents

Claims (2)

the trigger is connected to the first input of the element I, the second input of which is connected to the oscillation generator of the reference frequency, and the output to the input of the corresponding counter of the intermediate memory block and to the installation input of the unit of the mentioned R-S-trigger, zero output of which is connected to the control D by the input of the D-T flip-flop, the inputs of the installation of all the flip-flops are connected to the reset bus, and the zero triggers of the DT-flip-flops of both channels are connected to the first and second inputs of the three-input element and gating clock signals, the third input of which is connected k A controllable frequency snapshot skid, and an output to the inputs of both counters of the intermediate memory block. The scheme of the described device is shown in the drawing. The measuring device contains pulsed tachometers and 2, Zveremin's block of intervals, an oscillator of 4 reference frequencies, a controlled synthesizer of 5 frequencies, a block 6 for gating clock pulses, an intermediate memory block 7, an information transfer etching unit 8 and an output counting device 9. Block the time intervals consist of d) Vuh channels, each of which contains the O-T flip-flop lO (Ji), the clocking input of which is connected to the output of the tachometer 1 (2), the two-input element I 12 (13) and the RS flip-flop 14 ( 15), cf. , the single trigger code 10 (11) is connected to the input of element 12 and (13), the second input of which is connected to generator 4, and the output is connected to the input of unit 7 and the installation input of the trigger unit 14 (15), zero output of which is connected The D-input of the trigger is 10 (11), and the zero ones in the Bixojabi triggers} 0 and 11 are connected to the first and second inputs of the three-input element 6, the third input of which is connected to the output of the controlled synthesizer 5 frequencies. - Intermediate memory block 7 consists of two identical counters 16 and 17, each of which has two entrances, the first ones of which are connected to the outputs of elements 12 and 13 of the com box; naturally, and both BTbpbix inputs are associated with the outputs of block 6 Block 8 Comparison and control of information imbalances will add from RS-flip-flops 18, 19, three-input elements AND 20, 21, 22 and two-input element OR 23, the installation set-up unit TpifrrepoB 18 and-19 are connected to the outputs of counters 16 and 17, single output trigger 18 is associated with the nerve inputs of the elements And 20 and 22, its zero output is with the first in element of the element And 21, a single output of the trigger 19 - with the second inputs of the elements And 21 and 22, its zero output with the second input of the L-terminal And 20. The third inputs of the elements And 20, 21 and 22 are connected to the output of the generator 4, the outputs of the elements And 20 and 21 Mo and through the element OR 23 are connected to the output device 9, and the output of the element M 22 BKJifo4eH to the reset bus 24. The principle of the measuring circuit is based on a comparison of the number of pulses of the generator 4 of the reference frequency; 1). The measurement cycle will consist of two stages: the first stage of measuring the number of impulses of the reference frequency for the period of the frequency of each tachometer, and the second stage of comparing the specified numbers and translating the comparison result into relative units during the transfer of information and the output reading device 9. At the first stage of the measurement cycle, all elements of the device blocks, except device 9, are set to their initial state before starting the first stage. m reset on the bus 24. At the same time on the control O-inputs of the flip-flops 10 and 11 there are single signals, the elements 12, 13, 20, 21 and 22 are locked, the block 6 is open, the frequency at the output of the synthesizer 5 rtsugstvuet, because control input has not yet arrived on one pulse. : The next pulses of tachometers 1 and 2 set the triggers 10 and 11 to unit state, which causes block 6 to be unlocked, And 12 and 13 elements will be unlocked, and generator 4 impulses will be fed to the inputs of counters 16 and 17. The first pulses from the outputs of the elements Both 12 and 13 flip-flops 14 and 15 are set to one and remove the control signals from D-inputs to D and 11. The second tachometer pulses 1 and 2 set the specified triggers to (Goto Zero, And 12 and 13 elements are blocked. Repeated triggers 10 and 11 as received and tachometer pulses (e.g., with a large difference in speeds) are excluded by blocking. By O inputs until a repeated reset pulse on the bus 24. The end of the nepBOiTo measurement stage is characterized by the moment of return to the zero state of both triggers 10 and 11 and the opening of block 6. To this moment counters 16 and 17 have the recorded numbers of pulses NI and Ma of generator 4, proportional to the values of the periods Tj and Tz of the pulse repetition frequency of the tachometers 1 and 2. At the same time, the number Ma turned out to be recorded in the control counter 5, so that his time at the second measurement stage is defined as fg KNffo, where fo is the frequency of the mouth of the generator 4, and K is the proportionality coefficient. At the second measurement stage, the frequency pulses f., Through block 6, enter the inputs N and Nj, recorded at the first stage, at the inputs of counters 16 and 17j. The overflow pulses of counters 16 and 17 alternately set triggers 18 and 19 to one unit. In addition, as indicated by the scheme, the time between overflow pulses of counters 16 and j 7 is cycled from elements And 20 or 21, depending on the order of counters pending. . The open state 1 of the indicated AND element is determined by the time interval. Since the information inputs equal to the input inputs of the elements And 20 and 21 receive the frequency fo, the number of transfer pulses that arrive at the output sample device 9 through the element OR 23 at the second stage is expressed as the sign of the resulting expression depends on the values of NI and NJ and is determined by the scheme The device 9, depending on which of its two inputs connected with the output of the o1 elements AND 20 and 21, receives information. The fact of overflow of both counters of the intermediate memory block is recorded by opening the element 22 and receiving a single reset pulse on the bar 24. The number of transfer pulses entering the sample reading device 9 can be represented as {- 1 g L. It where fj and fi are the tracking frequencies of tachometers 1 and 2 ,; When using tachometers with the same conversion ratio P. For decimal controlled frequency synthesizers K o, so that when choosing the appropriate frequency at the output of the reading device 9, we obtain a result equal to the relative value of the velocity difference. Apparatus of the Invention A device for measuring relative velocity differences comprising two pulse tachometers connected to a block of time intervals, which is connected to a controlled frequency synthesizer connected to a reference frequency oscillator, and through a block for strobing the clock frequency with an intermediate memory block This consists of two counters, which is connected to an output device through a comparison and control unit for transferring information, characterized in that, in order to increase the resolution a pulse tachometer control input, a frequency synthesizer control input is associated with a time interval block output corresponding to a second pulse tachometer channel, and a time interval block consists of two channels, each of which contains a DT trigger, a clock input connected to the corresponding pulse tachometer output And-and-RS dowell-trigger element, with a single 0-T-flip-flop switch being connected to the first input of the And element, the second input of which is connected to the output of the oscillator of the reference frequency, and the code — with the input of the corresponding counter of the intermediate memory block and with the installation input of the RS unit — a flip-flop, the zero output of which is connected to the D-trigger of the D-T flip-flop, the zero set inputs of all flip-flops are connected to the reset bus, and the zero ones are H1 D2 The T-flip-flops of the first and second channels are connected to the first and second inputs of a three-clock element and clock gating, the third input of which is connected to the code of the controlled frequency synthesizer, and the outputs to the inputs of both counters of the intermediate memory block; Sources of information taken into account in the examination}. USSR Author's Certificate No. 386339, cl. GO P 3/54, 1971. 2. For the number 2142617/10, cl. G 01 R 3/56, 1975, According to which a decision was made about the date of copyright certificate. I   h -.- i- VlHtok I ..H, 667896