SU862076A1 - Electronic tachometer - Google Patents

Description

The invention relates to measuring technique ”and can be used in systems for measuring the speed of rotation /

Known tachometer ω, which is based on counting the number of encoder pulses for a predetermined interval vre- ⁵ Meni.

Also known is a tachometer (2], comprising a frequency sensor connected to an information input of a key, a counter connected to an indication unit, and a control unit.

A disadvantage of the known tachometers is an increase in their relative error with decreasing rotational speed.

The aim of the invention is to improve the measurement accuracy without increasing the tachometer bit depth. _?

This goal is achieved by the fact that the tachometer introduced sequentially connected pulse frequency divider and decoder included between the output of the key and the counting input of the counter.

In this case, the discreteness of the frequency sensor signal should be increased by a number of times equal to the capacitance of the pulse frequency divider.

In FIG. 1 shows a diagram of the proposed device; in FIG. 2 - shows timing diagrams of his work.

The electronic tachometer contains a control unit 1, a frequency sensor 2, an input key 3, a pulse frequency divider 4, a decoder 5, a counter 6 and an indication unit 7, consisting of a memory register 8, a decoder 9 and indication elements .1Λ

The device operates as follows.

The control unit 1 generates a pulse that temporarily opens the input key 3. The pulses of the frequency sensor 2 are fed to the input of the divider 4 (A, Fig. 2). The decoder 5, with the code corresponding to half the capacity of the divider, generates a negative voltage drop (0, Fig. 2) and is written to counter 6. At the end of the TC time, key 3 is closed, the pulses to the input of the additional divider are stopped. The control unit 1 generates pulses of information transfer to the memory register 8 and then a counter reset pulse 6, on the display elements 10 the counter code 6 is displayed - the frequency of rotation of the frequency sensor 2. The time interval TC can end at moments close to the time or Lts (measurement time T _u-1 , T _M ^). Then the code on the scoreboard will be respectively N “1 or N. For these cases, the measurement error will be close to O. If the measurement time ends at the moment d) you are at. ^ Or (measurement time Tc ₂ , Tcz), the measurement error is maximum, approximately +0.5 weight of the least significant indicator.

Thus, the error in measuring the rotational speed is approximately halved without changing the number of tachometer discharges.

Claims (2)

The invention relates to a measurement technique and can be used in systems for measuring rotational speed. The tachometer QJ is known, the operation of which is based on counting the number of pulses of a sensor over a given time interval. Also known is a tachometer 2 containing a frequency sensor connected to a key information input, a counter connected to the display unit, and a control unit. A disadvantage of the known tachometers is an increase in their relative error with decreasing rotational speed. The aim of the invention is to improve the measurement accuracy without increasing the tachometer size. The goal is achieved by the fact that the tachometer is inserted in 1 successively connected pulse frequency divider and decoder connected between the key output and the counting input of the counter. In this case, the discreteness of the signal of the frequency sensor should be increased by a number of times equal to the capacitance of the pulse frequency divider. FIG. 1 shows a diagram of the proposed device; in fig. 2 - shows time diagrams of his work. The electronic tachometer contains a control unit 1, a frequency sensor 2, an input key 3, a pulse frequency divider 4, a decoder 5, a counter 6 and a display unit 7 consisting of a register, memory 8, a decoder 9 and display elements. The device works as follows . The control unit 1 generates a pulse that opens the input key 3 for time Ti. The pulses of the frequency sensor 2 are fed to the input of the divider 4 (L, Fig. 2). The decoder 5, with a code corresponding to half the capacity of the divider, generates a negative voltage drop (B, Fig. 2) and is recorded in counter 6. When the time T c is shortened, the key 3 is closed, the arrival of pulses at the input of the additional divider is stopped. The control unit 1 generates information transfer pulses to memory register 8 and then a reset pulse of counter 6, the display code 10 displays the counter code 6 — the frequency of rotation of the frequency sensor 2. The time interval T c may end at times close to time t or Lch (measurement time Tc), Tvt). Then the code on the display will be N-I or N, respectively. For these cases, the measurement error will be close to O. If the measurement time ends at 4 | y | (measurement time Tc2 measurement error is maximal at about 5 times the weight of the lower digit of the indicator. Thus, the measurement error of the rotational speed is reduced by about half without changing the number of tachometer bits. Invention Electronic tachometer containing a frequency sensor connected to an information input a key, a counter connected to the display unit, and a control unit connected to the control inputs of the key, the counter and the display unit, in order to increase the measurement accuracy in it A pulse frequency divider connected to the key output and a decoder, the inputs of which are connected to the outputs of the expander, and the output to the counting input of the counter are entered. Sources of information, taken into account in the examination 1. US patent 3855572, cl. 340-52, published. 1974. 2. Vygorad G.Z. Digital controllers and speed meters, M., 1966, p. 65 (prototype). Fi & g