SU962987A1 - Scale amplifier - Google Patents

Description

The invention relates to an analog / howl computing technique and can be used in analog and hybrid computing machines and devices.

Scale amplifiers are known, including signal summation, consisting of an op amp with resistive feedback and input resistors 3

A disadvantage of known amplifiers is the low scaling accuracy, i.e. the presence of an error in the output signal, especially at high values of the scale factor and a small gain of the operational amplifier. . The closest to the proposed technical entity is a decisive amplifier in which it is possible to isolate the specified pure one and which contains the main operational amplifier, the inverting input of which is connected to the first output of the first scalable resistor and through the second scale resistor connected to the input of the device and its output is the output of the device, an additional operational amplifier.

the inverting input of which is connected to the zero potential bus through the third scale resistor and through the fourth scale resistor to the output of an additional operational amplifier, noninversion input of the main operational amplifier is connected to the zero potential bus, and the fifth scale resistor included with a wind switch and inverter input Ozzny operational usi. shtstel C2.

The disadvantage of this device is that the error of operation, for example, scaling is only measured, and to reduce it, you must use any additional devices, such as storage and subtraction.

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The purpose of the invention is to increase the accuracy of scaling by continuously introducing a correction factor into the output signal of the scale amplifier for finiteness of the gain of the operational amplifier.

Claims (2)

The goal is achieved by the fact that in the non-inverted amplifier a large-scale amplifier is an additional input. the operational amplifier is connected to the inverting platoon of the main operational amplifier / and the output of the additional operational amplifier is connected to the BTOpfcJM output of the first large-scale resistor. The drawing shows the electrical circuit of the proposed amplifier. The scale amplifier consists of a main operational amplifier 1 with a scale resistor 2 in the negative coupling circuit and a scale resistor 3 in the input circuit. The scaling resistor 4 forms a correction circuit. The additional operational amplifier 5 is back coupled through a scale resistor 6 connected to the zero potential bus via a scale resistor 7. In addition, the non-inverting input of the additional operation amplifiers is connected to the first terminals of the resistors 2–4 and its output to the second the output of the resistor 4. The scale amplifier works in the same way. At the input to the input of a scale amplifier of a certain voltage, a signal of an arc mark, which can be considered as the sum of the exact value; a scaled voltage and a certain error, appears at the output; the exact value is equal to the input voltage multiplied "And the ratio of the resistance of the scale resistors 2 and 3 .. But it follows that the exact value of the output voltage and the input voltage are mutually compensated at the divider from the scale resistors 2 and 3 and to the input of the main operational amplifier 1 Only false error signal divided in not that many times. This signal is fed to the input of the additional operational amplifier 5 and is amplified by it. The amplified error voltage is applied to the resistor 4, designed so that the error at the output of the large-scale amplifier is fully compensated. Due to the inaccuracy of the elements, the compensation is incomplete, but tests show that when the scale resistors 6 and 7 are admitted to + 5%, the scaling error without additional adjustments is reduced 10 times. Thus, the application of the proposed amplifier allows to use in its composition microcircuit operational amplifiers instead of more complex and expensive devices based on discrete transistors. The economic effect from the use of the invention is due to its technical features; The invention is a scale amplifier, the contents of the main operational amplifier, the inverting input of which is connected to the first output of the first large-scale resistor and through the second large-scale resistor is connected to the input of the device, and the output of the operational amplifier is the output of the device, an additional operational amplifier that inverts the input of which through the third large-scale resistor is connected to the zero potential bus and through the fourth large-scale resistor to the output of the additional operating force ate neinvertiruyschy main input of the operational amplifier is connected to zero potential bus, and a fifth scaling resistor included. wired between the inverting input and the output of the main operational amplifier, that is, that with the aim that, in order to increase the accuracy of operation, the non-inverting input of the additional operational amplifier is connected to the inverting input of the main operadionny amplifier, and the output of the additional operational amplifier with the second the output of the first large-scale resistor. Sources of information taken into account during the examination 1. Lenk J. Handbook of modern solid-state amplifiers M., 1977.. 2. Morozov V.P. Method of measuring the error of linear analog operations. Lime universities, sir. Instrument making, 1976, HGH, No. 10 (prototype) ... Ls