SU1394162A1 - Multichannel converter for resistance transmitters - Google Patents

Abstract

The invention relates to the field of measurement technology and can be used for strain gauge and thermometric measurements. The invention improves the accuracy of multichannel converters by reducing the summation error and the effect of the resistance of the terminals of the resistance sensors. The device contains isolated sources 1 and 2 of stable current, switches 3, 4, 5 and 6, amplifier 7, control unit 8, resistive sensors of the first group 9 and second group 10, a current stabilizer, to the input of which a capacitor is connected, controlled keys. When the device is in conversion mode, the keys open. In this case, the power source of the current regulator is a capacitor. This allows the device to be simplified using a single voltage source dp supplying all the blocks. I zp f-ly, 2 ip. about s ate

Description

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The invention relates to a measurement technique and can be used for strain gauge and thermometric measurements. The purpose of the invention is to improve the accuracy of multi-channel transducers by reducing the summation error of the influence of the resistance of receptive sensors,

j Figure 1 shows a multichannel transducer dp resistive daT; FIG. 2 shows a stable current source. The converter contains the first 1 5 i second 2 isolated stable current sources, the first 3, the second 4, the third 5, and the fourth 6 switches j 7, the control unit 8, the resistance sensors of the first group 9 and 20 of the second group 10. The isolated stable source current contains a current stabilizer 11, to the input of which a capacitor 12 is connected, as well as the first 13 and second 14 controlled 25 keys.

The Converter operates as follows.

According to commands from control unit 8, switches 3 and 4 are connected to the output, Q dam, of isolated sources 1 and 2 of stable current, the current terminals defined by the control unit of resistive sensors. For the same commands, switches 5 and 6 connect the potential terminals of the resistive sensors in such a way that the latter form a series circuit connected between the input of the amplifier 7 and the common bus of the device.

Due to the fact that the sources 1 and 2 of the current are isolated, the voltage applied to the input of the amplifier 7 is equal to the sum of the voltage drops across the resistive sensors. Since the input impedance of the amplifier 7 is large, the resistance of the potential outputs of the sensors does not affect the accuracy of the conversion. The resistance of the current outputs of the sensors does not affect either, since the sensors are drawn from stable current sources.

According to commands from the control unit, the keys 13 and 14 for some time connect the capacitor 12 to the source S5 of the voltage -s-Uf. During operation of the device in the mode of converting the keys, then and yes and then

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chi 13 and 14 open. In this case, the power source for the stabilizer I is a capacitor 12. This simplifies the device by using only one voltage source to power all of its units.

Claims (1)

1. A multichannel converter for resistive sensors, comprising first and second stable current sources, first, second, third and fourth switches, a control unit, an amplifier, and first and second groups of resistive sensors, characterized in that, in order to increase accuracy, the first and second outputs the second sources of stable current through the first and second switches are connected to the current terminals of the first and second groups of resistive sensors; the first potential terminals of the first group of resistive sensors through the third switch with The second potential pins of the second group of resistive sensors are connected to the amplifier input through the fourth switch, and the second potential pins of the first group of resistive sensors and the first potential conclusions of the second group of resistive sensors are connected via the third and fourth switches between the first and the third switches are connected to the first output of the control unit; the control inputs of the second and fourth switches are connected to the second output of the control unit; ohm the first and second sources of stable current are made isolated. 2o The converter according to any one clause, characterized in that the first and second insulated sources of stable current are made in the form of a current stabilizer, to the input of which a storage capacitor is connected, the first output of which is connected to the voltage source via the first controlled switch, the second output the key is connected to the common bus of the converter, and the control inputs of the first and second keys are connected to the third output of the control unit. chg . eleven KLOKUZ 0i / “. Z