SU785883A1 - Displacement-to-code converter - Google Patents

Description

(54) TRAVEL TRANSMITTER TO CODE

one

The invention relates to systems for automatically converting values to code, namely, displacement converters to code.

A known displacement transducer is a code containing a magnetic core, in the gap of which a galvanomagnetic sensor and a movable coding element fl are located.

Such converters have a fairly simple design, but their disadvantage is the low accuracy of converting the measured value into a code.

The closest in technical essence to the invention is a displacement transducer into a code containing a reading element made in the form of a magnetic circuit with a winding, and a magnetic diode located in the gap between the reading and encoding elements, the anode of the magnetic diode is connected to the positive potential bus, and the cathode is connected to one pin of the limiting resistor, and the Zener diode 2 is used as the reference element for limiting the current through the magnetic diode.

A disadvantage of this device is the low sensitivity of the reading element, which causes the need to increase the magnetizing field of the coil.

The aim of the invention is to increase the sensitivity of the displacement transducer to the code.

The goal is achieved by inserting a key and an amplifier into the displacement transducer in the code, the input

10 of which is connected to the cathode of the magnetic diode, and the output - to the control input of the key and through the magnetic winding to the negative potential bus, to which is connected via the key

15 The other is the limit of its resistor.

Figure 1 shows a schematic of a magnetic displacement transducer to a code; figure 2 - the same

20 functional scheme.

The converter contains a coding element 1 (Fig. 1), a magnetic circuit 2 with a winding 3. A magnetic circuit 4 is installed in the gap between the magnetic core 2 and a coding element 1, the input of the amplifier 5 (Fig.2) is connected to the magnetic diode 4 and the limiting resistor b, and the output - with winding 3 and with the entrance to point 7,

Headpiece 4, limiting the resistor b and key 7, is connected in series to the positive and negative potential of the power source (not shown in Fig. 2).

. The Converter operates as follows.

At the time of the presence of the depression of the coding element 1 against the magnetic diode 4, the resistance of the magnetic circuit is large (reading O); through the winding 3 flows a small current of the amplifier 5 (figure 2), working in

standby mode. Mode of operation; amplifier 5 is governed by divider parameters, c. One of the arms is connected to the magnetic diode 4, and to the other limiting resistor b and switch 7. At the same time, a decrease in the voltage at the input of the amplifier 5 causes an increase in the output current flowing through the winding 3 of the magnetizing magnetic circuit 2. The magnitude of the current of the amplifier depends on the parameters of the winding 3, total gaps of the magnetic system, the magnetosensitivity of the magnetic diode 4 and is selected in the range (0.2-0.25) 0, where the output current of the amplifier when reading is 1.

The key 7 is closed, since its input from the amplifier 5 receives a signal insufficient to open the key.

When the protrusion of the coding element 1 to the magnetic diode 4 (Lig.) Approaches, the resistance of the magnetic circuit decreases, causing an increase in the magnetic flux, which affects the magnetic diode. The resistance of magnetodiode 4 increases, causing a decrease in the voltage at the input of amplifier 5. The output TQK of the amplifier flowing through the winding 3 increases, the magnetic flux created by the winding increases, affecting the magnetic diode L, further increases its resistance. At the same time, the output signal of the amplifier opens the switch 7, and the voltage at the input of amplifier 5 decreases sharply. This in turn causes an additional increase in the output current of the amplifier and the magnetic flux of the winding 3. The resulting avalanche-like process leads to the complete opening of the output stage of amplifier 5, which is removed from its output the signal corresponding to the read 1.

The use of a positive feedback on magnetic flux and current in the proposed converter makes it possible to increase the sensitivity of the readings of all the elements of the converter, i.e. The reliable operation of a converter requires a much smaller magnetic flux created by the magnetizing winding.

In addition, the proposed transformed

The displacement detector is more economical in terms of power consumption, since the maximum IV current from the power source is consumed only at the moments of reading units. When reading

zero code characters from the power source consumes a standby current that is 4-5 times less than the maximum current.

The economic effect from the use of the proposed technical solution is due to the above mentioned technical advantages.

Claims (2)

1. Khomeriki O.K., The use of galvanomagnetic sensors in automation and measurement devices. M., Energy, 1971, pp.91-98. 2. USSR author's certificate No. 343285, cl. C-08 C 9/04, 1970 (prototype). , L 1L1Gi1G1G1Sh te./