SU1545166A1 - Digital tachometer - Google Patents

Abstract

The invention relates to a measurement technique and can be applied to measure the rotational speed of a gas turbine engine. The aim of the invention is to improve the accuracy and simplification of the tachometer. Normalized in amplitude, polarity and duration, the pulses from the speed control unit 4 arrive at the second input of the first element AND 3. When a logical signal "1" is sent to the first input of the first trigger 2, the normalized impulses passed through the first element 3 and are counted the first counter 5, after which the accumulated information is displayed by the display unit 6. The number displayed by block 6 is determined by the product of the actual rotational speed of the engine and the duration of the time interval, which makes it possible to find the superficial velocity: N _f = N _fact ^. F (T °). 1 il.

Description

¹ The invention relates to measuring technique and may find application for measuring the rotational speed of a gas turbine engine (GTE).

The purpose of the invention is to simplify and improve accuracy.

The drawing shows a functional diagram of a digital tachometer ,,

The digital tachometer contains a reference frequency generator 1, the first (trigger 2, the output of which is connected ¹ to the first input of the first element

IZ, the second input of which is connected to the output of the speed control unit 4, and the output to the input of the first counter I 5, the output of which is connected to the input! block b indication. The output of block 7 (temperature control through an analog-digital converter 8 is connected to the information input of the memory register 9, the output of which is connected through the code converter 10 to the first input of the comparison circuit 11; the second input of which is connected to the output of the second counter 12, and the output to the second inputs of the first 2 and second .13 flip-flops.The output of the trigger pulse source 14 is connected to the zeroing input of the first counter 5, the first input of the second trigger 13, zeroing the input of the second counter 12 and the clock input of memory register 9. The second output t iggera 13 is connected to the first input of the second AND gate 15, whose second input is connected to the output of the reference frequency oscillator 1, and an output - to the first input of the first flip-flop 2 and the counting input of the second counter 12.

Digital tachometer operates as follows.

The pulses normalized in amplitude, polarity and duration from the speed control unit 4 are fed to the second input of the first element And 3. When a logical signal 1 is fed to its first input from the output of the first trigger 2, the normalized pulses, passing through the first element of the FR, are counted by the first counter 5, after which the information accumulated by him is displayed by the display unit 6. The number displayed by the display unit b is determined by the product of the actual speed of the GTE shaft and the duration of the time interval during which the output of the first trigger 2 is present

166 4 logical 1. The measurement cycle begins with the arrival of a trigger pulse from the source 14, which cocks the trigger 13 and resets both counters 5 and 12, preparing them for a new measurement cycle. The same pulse allows recording information about the current ambient temperature in the form of a binary end, coming from the output of the temperature control unit 7 through an analog-to-digital converter 8 to the memory register 9, the information from which goes to the input of the code converter 10, which puts each code at the input in strict accordance with a certain code at the output. Information in the code converter 10 is preliminarily recorded in accordance with the law f (t °) arising from the reduction formula, while realizing a certain discreteness both in the input and in the output.

The platoon of the second trigger 13 leads to the establishment of a logical G ¹ at its output, as a result of which the clock pulses of the reference frequency from the generator 1 are allowed to pass through the second element And 15 to the second counter 12, and the first clock pulse missed by the And 15 element cockes the first trigger 2, thereby allowing the passage of pulses from the speed control unit 4 through the And 3 element to the input of the first counter 5. As soon as the pulse monotonously increasing at the output of the counter 12 is equal in magnitude to the code at the output of the code converter 10, the circuit 11 s equalization forms a single pulse, which resets both triggers 2 and 13, thereby terminating the measurement cycle. Thus, the duration of the time interval during which the transmission of pulses from the speed control unit 4 through the And 3 element to the counter 5 is allowed is numerically equal to the value of the function f (t °) corresponding to the current value of the ambient temperature. Since the total number of pulses transmitted through the And 3 element in the cycle of measuring pulses from the speed control unit 4 is determined by the product of their repetition rate, i.e. with the actual speed n _f01KT for the duration of the mentioned time interval, then at the end of the last one, counter 5 just calculates in the decimal code the required equal _speed = η gas-turbine engine speed F _akt 'f (t °) to the desired rank.

binary ⁿ prmv "

Claims (1)

Comparison formula and inventions, characterized in that, in order to simplify and improve accuracy, a second trigger, a trigger pulse source, a second AND element, a second counter are introduced into it, the first input being a second digital tachometer containing a reference frequency generator, a trigger whose output is connected to the first input of AND element, whose second input. connected to the output of the speed control unit, and the output is connected to the input of the counter, the output of which is connected to the input of the display unit, the temperature control unit, the output of which is connected via an analog-to-digital converter to the information input of the memory register, the output of which is connected through the conversion trigger to the source trigger pulse, resetting the 1Q input of the first counter and the clock input of the memory register, the first input of the second element And is connected to the output of the second trigger, the second input to the output of the generator chasto15 you, and output - with pervm input of the first flip-flop and counting input of the second counter, reset by the input of which is connected to the source of the trigger pulse, and the output - to the second 20 to the input of the comparison circuit, the output of which is connected to the second inputs of the code performer with the first input of the circuit of the second second flip-flops.