SU711484A1 - Arrangement for computing the ratio of different-polar voltages - Google Patents

Description

The invention relates to the radio engineering industry and can be used in ratio meters, standing dolly coefficient meters in microwave equipment and other 5 devices for this purpose.

Known devices for calculating the ratio of stresses of various types.

One of the known devices contains an amplifier with an adjustable gain of 10, the input of which is connected to the first input terminal of the device, and the output to the input of a differential amplifier connected by the second input to the second input terminal, 5 me devices, the output of the differential amplifier is connected with a control unit, which is connected to the control, an amplifier electrode with an adjustable gain [1]. 20

A disadvantage of the known device is the complexity of the circuit and the difficulties of ensuring a linear change in the gain.

Another of the known devices 25 contains an operational amplifier connected to the first input terminal, and in its feedback circuit a multiplying cascade connected to the second input terminal [2] is included. zo

The disadvantage of this device is the limited dynamic range due to the strong increase in error at low voltages at the input of the operational amplifier. In addition, multiplication cascade circuits are very complex.

The closest technical solution is a device for measuring the voltage ratio, containing two identical elements with an adjustable transmission coefficient, a comparison circuit and an amplifier. One input of the comparison circuit is connected through the first element with an adjustable transmission coefficient to the first input terminal of the device, and the other to the source of the reference signal. The output of the comparison circuit through an amplifier is connected to the control inputs of the elements with an adjustable transfer coefficient. The second input terminal through the second element with an adjustable gear ratio is connected to the output terminal of the device (3].

A disadvantage of the known device is complexity.

The purpose of the invention is the simplification of the device.

the second field effect transistor 8 will

To this end, in a device for calculating the ratio of bipolar voltages, containing two identical elements with an adjustable transmission coefficient, a reference signal source and an amplifier, the output of which is connected to the control inputs of elements with an adjustable transmission coefficient, the input of the amplifier is connected to the first input through the first element with an adjustable transmission coefficient the device’s terminal and through the introduced resistor - with the second input terminal, and the reference signal source is connected to the second element with an adjustable coefficient cient to transmit and output terminal devices. .

The drawing shows a structural diagram of the proposed device for calculating the ratio of bipolar stresses.

The device contains two identical elements 1 with an adjustable transmission coefficient, a reference signal source 2 and amplifier 3. The input of an amplifier 3 is connected to the first terminal 4 through the first element 1 with an adjustable transmission coefficient 1 and to the second input terminal 6 through a resistor 5. connect view:

^to Fri ₂ where

U h1 • R, (2) • RfiT ''"resistance of the second channel of ^{the second} field effect transistor.

Given the source 2 of the reference signal (current generator), the output voltage at terminal 7 will be:

w tW = (3 _gt · R) ·, (3) where

GT - current source 2 reference signal and is proportional to the ratio of input voltages.

However, in the proposed device, it is necessary that ϋ ^ _Λ ^> 0, and <0 and the value of the resistor 2 to choose more than an order of magnitude than the minimum channel resistance of the field-effect transistor.

The proposed device has a simpler circuit than the known device, due to the exclusion of the comparison scheme. When using a large number of such devices in side equipment, the volume of electronic equipment is reduced.

chen to the control inputs of two elements 1, with an adjustable transmission coefficient ed. The reference signal source 2 is connected to the second variable gain element and to the output terminal 7 of the device.

As elements with an adjustable transmission coefficient 1, a matched identical pair of field-effect transistors 8 is used, the control inputs of which are gates. Sources 2 of the reference signal is a current generator. . 40 'The input voltage Ubi is supplied to the first input terminal 4 of the device, and the voltage ϋ (> χ2 ·

Due to the high gain of the amplifier 3, each is connected to the control inputs of the elements 1 with an adjustable transmission coefficient, the channel resistance of the first field-effect transistor 8 will be:

^E PT1

(I) where ^κ ΠΤι ~ channel resistance of the first field-effect transistor;

R; - resistance of the resistor 5.

Since both elements 1 with an adjustable transmission coefficient are identical, then the cap resistance is ηh

Claims (1)

To do this, in the device for calculating the ratio of bipolar voltages, containing two identical elements with an adjustable transmission coefficient, a reference signal source and an amplifier, the output of which is connected to the control inputs of the elements with an adjustable transmission coefficient, the input of the amplifier through the first element with an adjustable transmission coefficient is connected with the first input terminal of the device and through the input resistor - with the second input terminal and the source of the reference signal is connected to the second element with an adjustable coefficient ientom transmission device and to the output terminal. . The drawing shows a block diagram of a device for calculating the ratio of opposite voltages. The device contains two identical elements 1 with an adjustable transmission coefficient, a source 2 of the reference signal and an amplifier 3. The input of amplifier 3 through the first element 1 with adjustable transmission coefficient is connected to the first terminal 4 and through a resistor 5 to the second input terminal 6. 3 is connected to the control inputs of the two elements 1. With adjustable-transmission coefficients. The source 2 of the reference signal is connected to the second element 1 with adjustable transmission coefficient and to the output 7 devices. As elements with adjustable Transmission coefficient 1, a matched identical pair of field-effect transistors 8 are used, whose gate inputs serve as control inputs. The sources of the 2-reference signal are the current generator. . The input voltage goes to the first input terminal 4 of the device, and due to the high gain of amplifier 3 each is connected to the control inputs of elements 1 with an adjustable transfer ratio the channel resistance of the first field-effect transistor 8 will have type: PTD channel resistance of the first field-effect transistor; R is the resistance of the resistor 5. Since both elements 1 with an adjustable transmission coefficient are identical, the channel resistance of the field-effect transistor 8 will be of the form; Fri Pg rpT channel resistance of the second field effect transistor. Considering the source 2 of the reference voltage (current generator), the output voltage at terminal 7 will be:. UfeM are GT GT of the source 2 of the reference signal and is proportional to the ratio of the input voltages. However, in the proposed device, it is necessary that ICC, O, and the value of resistor 2 be chosen more by an order of magnitude than the minimum resistance of the channel of the field-effect transistor. The proposed device has a simpler circuit than the known device by eliminating the comparison circuit. When using a large number of such devices in the side equipment, the volume of electronic equipment is reduced. Apparatus of the Invention A device for calculating a bi-voltage ratio, comprising two identical elements with an adjustable gain, a reference source and an amplifier, the output of which is connected to the control inputs of elements with an adjustable gain, characterized in that the amplifier is connected to the first input terminal of the device and through the input resistor to the second input terminal through the first element with an adjustable transfer ratio, and the source is the first signal is connected to the second member with an adjustable transmission ratio and to the output terminal of the device. Sources of information taken into account in the examination 1. Japanese patent 50-10663, cl. 11043, published. 1975. 2i Design and application of operational amplifiers. Ed. Graham J. and lr. M., Mir, 1974. 3. Zhimensk .P. Ratio Meters and their Application in Radio Measuring Technology M., Council of Radio, 1975. five 6 ff-CZDUv ,, V