SU544127A1 - Converter non-electric quantities to digital code - Google Patents

Description

feedback tori with their inverting inputs; sensor zero setting resistor; summing amplifier; the input of which is connected to the two-phase output of the composite differential amplifier, and the output through the resistors to the input of the keys of the reference voltage; the scale amplifier is connected to the measuring diagonally of the load sensor, and the composite differential amplifier has the load sensor diagonal, and the zero resistor of the load sensor is connected to the two-phase output of the composite differential amplifier, and the midpoint of this resistor is connected the clump.

The drawing shows a structural electrical circuit of the device.

The converter of non-electric veddins into a digital code contains a load sensor 1, a scale amplifier 2, resistors 3-14, a measuring switch 15, switches 16 and 17 of the reference voltage, an integrator 18, a comparator 19, a 2O control unit, a power source 21, a utility trigger 22, The elements are 23 and 24, a composite differential amplifier 25, a summing amplifier 26, and a resistor 27 for setting the sensor zero.

The device works as follows.

The signal from sensor 1 is fed through scale amplifier 2, resistor 3 and switch 15 to the input of integrator 18 and is integrated for a constant time T, Reset of voltage of integrator 18 begins at the end of interval T, outputted by block 20, and is produced by one of the keys 16 or 17 from the source of the reference voltage. To eliminate the error from the bias of the voltage source, performed on the composite amplifier 25, or from the effect of common mode interference, the input of the keys 16, 17 receives a correction signal through resistors 4 and 14 from the output of the amplifier 26. The correction signal is formed at the input of the amplifier 26 if the voltage at the outputs of amplifier 25 is different in amplitude with different polarities of the signals. Due to the fact that the summing is done over the input of the amplifier 26, its gain is determined only by the stability of the resistors 4, 12, 13 1O and 14 and the gain of the amplifier 26, which can always be ensured for any conversion accuracy.

Thus, the reference voltage is obtained by converting the supply voltage of the load cell 1 to a sufficiently large value, while the correction range of the amplifier 26 is small — less than 10% of the input signal. The unbalance signal of sensor 1 is generated from a voltage source from the output of amplifier 25 and is fed to the input of switch 15. In this case, the signals of amplifier 2 and unbalance signal of sensor 1 are summed in current, and stability is provided by negative feedbacks of amplifier 2 and composite differential amplifier 25.

This construction of the transducer and the introduction of the coupling of the elements make it possible to obtain better stability and accuracy of the conversion as a whole, using elements with similar characteristics in terms of drift, input resistance, amplification, and attenuation of the common mode signals.

Claims (2)

1. The UK patent number 1296682, cl. Н ЗТ (а4И), published 04/12/72. 2. US patent number 3709303, cl. 340-348, published 23.O5.69 (prototype).