SU809219A1 - Device for mudulus determination - Google Patents

Description

 The invention relates to radioelectronic devices, in particular to the development of precision voltmeters, measuring generators and transducers of alternating voltage to a constant. The invention can be used in various fields of technology where it is necessary to convert an alternating voltage to a constant with high accuracy. A device is known for isolating a module based on a Shion amplifier, whose chain of negative feedback includes chains of series-connected diodes and reistors. . J aHHoe y; the device contains separated circuits I of negative feedback for alternating in the negative half-voltage of the output voltage of the amplifier l |. OPKNA such a device has the following disadvantages. You drift one way: due to reverse drift currents, the presence of a non-self-bias voltage at the output of the device, even in the absence of a hopping signal; The current is due to the voltage of the worm open diode and the corresponding resistor in the negative feedback circuit for direct current. To reduce the absolute value of the output voltage drift, it is necessary to increase the gain, which ultimately leads to deterioration of the stability and frequency properties of the device, but does not eliminate the effect of reverse currents. The closest in technical essence to the present invention is a device for an ALL-Dividing module containing chains of G2 diode dividers. However, when small voltages are applied across parallel-connected diodes (with locked serial diodes), their differential resistance increases and in the limit approaches the reverse resistance. In this case, the shunting effect of the parallel diodes is absent, and therefore the reverse resistance of the successive diodes is not excluded. The purpose of the invention is to increase the stability and broaden the dynamic range of the input signal. This goal is achieved in that a device for selecting a module containing an amplifier, whose input is connected to the device input via the first scale resistor and through the second and third scale resistors, respectively, to the device outputs and to the first terminals of two pairs of series-connected isolating diodes, the second terminals which are connected to the output of the amplifier, key transistors of different conductivity types, an additional large-scale resistor, and an additional amplifier, whose output is An additional large-scale resistor is connected to the base of each key transistor connected by a collector to the common pin of a matching pair of series-connected switching diodes, and by an emitter to a zero potential bus, the input of an additional amplifier connected to the output of the main amplifier.

The drawing shows a diagram of a device for isolating a module.

The device contains an amplifier 1. at the input of which a large-scale resistor is connected, a resistor 2, and between the input and output of which a feedback circuit is connected, contains large-scale resistors 3 and 4 and two pairs of separation diodes 5 and 6, 7 and 8. To the common terminals of diodes 5 and b, 7 and 8, collectors of the key transistors 9 and 10 are connected to extend the dynamic range of the base of the key transistors connected to the output of the main amplifier via an additional large-scale resistor 11 and an additional amplifier 12.,

The device works as follows.

With a positive -polarity of the input voltage, diodes 7 and 8 are open and a negative half-wave sinusoidal voltage acts on the corresponding output. At this moment, diodes 6 and 5 are closed, but the reverse current flows through them, due to the inverse resistance and capacitance of the diodes. At the same time, the transistor 9 opens with a positive voltage and closes the reverse current of the diode 6 to the case.

Thus, the reverse current of the closed diode does not flow to the input of amplifier 1, does not create parasitic voltage at the output of the device in a non-conducting period, and does not reduce the feedback efficiency for the conducting branch (diodes 7 and 8, pesHCtop 4).

If a negative ool negative input wave is detected, diodes 5 and 6 and transistor 10 are open and diodes 7 and 8 and transistor 9 are closed. At the same time, the reverse current of diode 8 signals is connected to the case through transistor 10.

 This eliminates the influence of the inverse impedance of the diode and its capacitance on the accuracy and stability of the transmitter gain over a wide frequency range.

The expansion of the dynamic range of the conversion is achieved due to the fact that transistors 9 and 10 are controlled from the output of the additional amplifier 12 (inverter with a high gain) with an almost rectangular voltage even at very high voltages.

small input signals, when the diodes in the reverse circuit no longer work as elements with full capacitance.

Such a construction of a device for isolating a module favorably distinguishes it from known devices, since it makes it possible to increase the stability of the conversion and expands the dynamic range. This is especially important when creating precision measuring instruments; borons, for example, analog and digital voltmeters, multivalued measures of alternating voltage. Using I of the proposed device for isolating a module as an average value converter in various measuring devices will improve measurement accuracy and labor productivity.

Claims (2)

1. Corne G. Electronic analog and. analog-digital computers. M., Mir, 1968, 4, IJ, c.l8 2. Volgin L.I. Measuring converters of alternating voltage in constant. M., Soviet Radio, 1977, p. 49, fig. 38 (prototype).