CS207974B1 - Connection of the electronic alternator - Google Patents

Description

(54) Connection of the electronic inverter

The invention relates to the connection of an electronic inverter comprising an analog switch and an addition amplifier.

In some devices, such as measuring exchanges, electronic measuring instruments, some automation equipment, or in chemical instrumentation, it is necessary to switch the amplifier polarity gain. For this purpose, inverters are used, often referred to as phase detectors, balanced or balancing modulators. Sometimes we also talk about amplifiers with controlled gain polarity.

Known inverters often include a differential opamp in whose circuits the operating feedback network is switched by one or usually several semiconductor switches such that the circuit operates either as an inverting amplifier or when switching the switches as a non-inverting amplifier.

A common disadvantage of said inverters whose gain polarity is controlled by semiconductor switches is that they fully exhibit unfavorable real properties of the semiconductor switches, in particular the resistance of the switches in the closed state and the dependence of this resistance on the ambient temperature and the applied voltage. Due to the connection of these inverters, the resistance of the semiconductor switch must be considered as part of the feedback network of the operational amplifier, resulting in inaccuracy and instability of the amplifier amplifier and hence the inverter.

These disadvantages are largely eliminated by the wiring of the electronic inverter according to the invention, which is based on the fact that the first input of the addition amplifier is connected to the input of the analog switch, the second input of the addition amplifier is connected to the output of the analog switch. wherein the wiring input is an analog switch input and the wiring output is an addition amplifier output.

The advantage of connecting the electronic inverter according to the invention is that it does not apply the unfavorable real properties of the semiconductor switches in the closed state, since the switches can be included in the direct branch of the feedback loop of the analogue op amp. and the non-linearity of the final value of the resistance of the semiconductor switches in the closed state to a negligible extent.

The connection of the electronic inverter according to the invention is schematically shown in the drawing.

The circuit comprises an analog switch 1, which comprises an operational amplifier 2, to whose inverting input 3 an input is connected via an input resistor 4

5. The output 7 of the operational amplifier 2 is also connected to the inverting input 3 of the operational amplifier via the first switch 6 and the output 7 of the operational amplifier 2 is connected via a series combination of the second switch 8 and the resistor 9. Between the resistor 9 and the second switch 8 there is an output 10 of the Analog switch 1. The non-inverting input 11 of the operational amplifier 2 is connected to a common conductor 12 and the control inputs 13 of the individual switches 6,8 are connected to their respective outputs 14 of the control circuit 15 of the switches 6,8 . The circuit further comprises an addition amplifier 16 having two inputs 17, an output 18 and a common conductor 12. The addition amplifier 16 is a conventional circuit and includes a second operational amplifier 19 to whose inverting input 20 the inputs 17 of the amplifier 16 are connected via the addition resistors 21 and via the feedback resistor 22 is output 23 of the second operational amplifier 19. The non-inverting input 24 of the second operational amplifier 19 is connected to a common conductor 12 and the output 23 of the second operational amplifier 19 is output 18 of the addition amplifier 16.

The first output 17 of the addition amplifier 16 is connected to the input 5 of the analog switch 1, the second input 17 of the addition amplifier 16 is connected to the output 10 of the analog switch 1 and the common wires 12 of the analog switch 1 and the addition amplifier 16 are interconnected. The input of the wiring is input 5 of the analog switch 1 and the output of the wiring is the output 18 of the addition amplifier.

The control circuit 15 switches the switches 6.8 so that only one of the switches 6.8 is always closed. If the first switch 6 is closed and the second switch 8 is open, the inverting input 3 of the operational amplifier 2 of the analog switch 1 is at the zero potential, the so-called virtual ground, and the resistor 9 is consequently connected to the zero potential. The inverter then acts as a simple inverting amplifier and its output voltage is ju ₂ = Rs

R ₃ where u ₂ denotes the output voltage of the inverter, R ₅ denotes the value of the feedback resistor 22, R ₃ denotes the value of the first addition resistor 21 and Uj denotes the input voltage of the inverter.

Conversely, if the second switch 8 is closed and the first switch 6 is open, the inverter output voltage r ₂

Ri

Rs

R ₄

Ul r ₃ where R denotes the value of the input resistance four analog switches 1, R ₂ value of resistor 9, R ₄ value of the second adder resistor 21 of summing amplifier 16. The entries resistor 4, 9,21 and 22 are preferably

Ri - R ₂ > R ₃ ^- 2 R ₄ , R 5 - k. R ₃ , where k denotes the inverter transmission. In this case, a) u ₂ = —k. AT! The first switch 6 is closed, the second switch 8 is open

b) u ₂ = k.Uj - the first switch 6 is open, the second switch 8 is closed

It can be seen from the above that the inverters can be used simultaneously to amplify the input signal being processed.

The connection of the electronic inverter according to the invention can be used in measuring and automation technology or in chemical instrumentation for switching the amplifier polarity. The wiring can also be used as a precision balanced modulator or precision phase detector in low frequency technology.

Claims (1)

SUBJECT OF THE INVENTION Connection of an electronic inverter comprising an analog switch comprising an operational amplifier, to whose inverting input an input of said analog switch is connected via an input resistor, an operational amplifier output through a first switch and an operational amplifier output through a serial combination of a second switch and a resistor. the switch is the analog switch output, the non-inverting input of the operational amplifier is connected to the common conductor, and the control inputs of each switch are connected to their respective outputs of the switch control circuit and the addition amplifier provided with two inputs, output and common conductor; ) the addition amplifier (16) is connected to the input (5) of the analog switch (1), the second input (17) of the addition amplifier (16) is connected to the output (10) of the analog switch (1) The wires (12) of the analog switch (1) and the adder amplifier (16) are interconnected, the input of the wiring being the input (5) of the analog switch (1) and the wiring output being the output (18) of the adder amplifier (16).