SU602870A1 - Measuring voltage converter - Google Patents

Description

the corresponding output of the control unit is associated with the control input of the additional key demodulator. The control unit is designed as a pulse generator.

FIG. 1 is a diagram of a preobrazovatel; FIG. 2 - diagrams of voltages on the outputs of the control pulse generator.

The converter consists of zero-level modulating keys 1 and signal level 2, demodulating keys 3 and 4. Switching keys 1 and 2 are connected to the input of a large-scale amplifier 5, to the output of which is connected an offset capacitor 6 connected by another electrode to key 3 and the comparator input 7 The output of the compiler 7 is connected via key 4- to the output capacitor 8. The second input of the comparator 7 and the output capacitor 8 are connected by an additional demodulating key 9. The modulating keys 2 are connected to the input capacitor 1.0 and are connected keys 11. The control inputs of the keys are connected to a generator of control pulses 12, which have three outputs. Keys 1, 3, and 11 are connected to the first output, keys 2 to the second output, and keys 4 and 9 to the third output.

The generator pulses are located in time: shown in FIG. 2. Under the action of a pulse at the first output, the input capacitor 10 is charged through decoupling keys 11 to the input voltage (thermocouple). The input of amplifier 5 is supplied with a zero signal through a closed modulating switch 1, and the offset of the amplifier is stored on capacitor 6.

The pulses at the second output are anti-phase impulses at the first output. When they are operated, the previously closed switches are opened - and the convertible signal from capacitor 10 is connected to the input of amplifier 5 via switches 2. At the output of scale amplifier 5, after capacitor 6, a voltage equal to the input multiplied by the gain of scale amplifier 5 is formed. A transient in the amplifier appears at the third output of the generator 12, and this pulse ends with the second output pulse. Under the action of this pulse, the demodulating signal and additional keys are closed 4

and 9, the comparator 7 produces a fast recharge of the capacitor 8 to voltages, | equal to the input voltage of the comparator 7.

Due to the action of the comparator 7, the recharge of the capacitor 8 leads to a rystray, which makes it possible to significantly reduce its connection time, i.e. pulse duration on the third

generator output. Due to the fact that the generator 12 generates a pulse at the third output, starting somewhat later than the pulse at the second output, the influence of transient processes in the large-scale amplifier B on the output voltage is eliminated. Due to the short time of connecting the input capacitor 10 to the amplifier 5, the voltage on it does not have time to change under the action of the input currents, which also leads to an increase in the accuracy of the converter.

Claims (2)

1. USSR Author's Certificate No. 18.1846, .cl. O- 01 R 19/22, 1959. 2. Serious A.I. et al., Technique for Reducing the Effect of Interference in Thermometric Circuits, M., 1968, p. 43. n P -I-I- t