CS207899B1 - Connection of the equilibrated modulator - Google Patents

Description

The invention relates to a balanced modulator circuit comprising an analog switch and an inverting amplifier.

In some devices, such as data loggers, electronic measuring instruments, some automation equipment, or chemical instrumentation, it is necessary to switch the amplifier polarity gain. Balanced modulators are used for this purpose, often referred to as phase detector, balance modulator or inverter.

Known balanced modulators often include a differential opamp in whose feedback circuits the operational feedback network is switched by one or more of several semiconductor switches such that the circuit operates either as an inverting amplifier or as a non-inverting amplifier after switching the switches.

A common disadvantage of said balanced modulators whose gain polarity is controlled by semiconductor switches is that they fully exhibit unfavorable real properties of the semiconductor switches, in particular the switch resistance in the closed state and the dependence of this resistance on ambient temperature and applied voltage. Due to the connection of these balanced modulators, the resistance of the semiconductor switch is part of the feedback network of the operational amplifier, which leads to the inaccuracy and instability of the amplifier amplification and thus the balanced modulator.

These drawbacks are largely eliminated by the balanced modulator of the invention, which is based on the fact that the inverting amplifier input is connected to the analog switch output and through a resistor to the analog switch input, the common wires of the analog switch and inverting amplifier are connected and the wiring input is analog input. the switch and the wiring output is the inverting amplifier output.

The advantage of wiring a balanced modulator according to the invention is that it does not apply the unfavorable real properties of the semiconductor switches in the closed state, since the switch resistors are practically part of the direct loop of the analogue opamp feedback loop. instability and non-linearity of the final value of the resistance of the semiconductor switches in the closed state to a negligible extent.

The wiring of the balanced modulator according to the invention is schematically shown in the drawing.

2078S9

The circuitry comprises an analog switch 1 comprising an operational amplifier 2. An input 5 of said analog switch 1 is connected via an input resistor 4 to the inverting input 3 of the operational amplifier 2. The operational amplifier output 7 is also connected to the inverting input 3 of the operational amplifier 2. 2 and through a series combination of the second switch 8 and the longitudinal resistor 9, the output 7 of the operational amplifier 2. Preferably, both switches 6 and 8 are semiconductor. Between the longitudinal 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 8 and 8 are connected to their respective outputs 14 The wiring further comprises an inverting amplifier 16 provided with an input 17, an output 18 and a common conductor 12. The inverting amplifier 16 is a conventional wiring and includes, for example, a second operational amplifier 19 to whose inverting input 20 the inverting amplifier 16 is connected via an input resistor 21. and via the feedback resistor 22 the output 23 of the second opamp 19. The non-inverting input 24 of the second opamp 19 is connected to the common conductor 12 and the output 23 of the second opamp 19 is the output 18 of the inverting amplifier 16.

The input 17 of the inverting amplifier 16 is connected to the output 10 of the analog switch 1 and via a resistor 25 to the input 5 of the analog switch 1. The common wires 12 of the analog switch 1 and the inverting amplifier 16 are interconnected. The wiring input is the analog switch 1 input 5 and the wiring output is the output 18 of the inverting amplifier 16.

The control circuit 15 switches the switches 6 and 8 so that only one of the switches 6 and 8 is closed, while the other of the switches 6 and 8 is open.

When 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 zero potential, the so-called virtual ground, and the longitudinal resistor 9 is consequently connected to zero potential. The analog switch input 5 is then connected to the inverting input 20 of the second operational amplifier 19 via a T cell formed by a resistor 25, an input resistor 21 of the inverting amplifier 16 and a longitudinal resistor 9. The balanced modulator then behaves as an inverting amplifier with output voltage.

R3 + R4 + R3R4 / R2 where u ₂ denotes the output voltage of the balanced modulator, R ₂ the longitudinal resistance value 9, R ₃ the resistance value 25, R ₄ the input resistance value 21 of the inverting amplifier 16, R ₃ the feedback resistance value 22 of the inverting amplifier 16 and Ui balanced modulator input voltage.

The balanced modulator according to the invention thus behaves as an inverting amplifier in this case.

In case the first switch 6 is open and the second switch 8 is closed, the output voltage of the balanced modulator is where Ri is the value of the input resistance 4 of the analog switch 1 and the other symbols are the same as those described in the previous case.

By appropriate selection of the proportion of resistor values 4, 9, 21, 22 and 25, for example R 3 R = R ₂ = R ₃ = R ₄ = R ₅ = R 3kR can be operation of the modulator according to the invention can be described simply as follows:

kui (first switch 6 open, second _u switch 8 closed) ² -kut (first switch S closed, second switch 8 open), where the other symbols R indicate the selected nominal resistance value and k indicate the transmission of the balanced modulator.

The wiring of the balanced modulator according to the invention can be used, for example, in measuring and instrumentation technology as a synchronous rectifier or phase detector. In chemical instrumentation, it is used, for example, as a precision amplifier with controlled polarity gain.

Claims (1)

Subject Connection of a balanced modulator comprising an analog switch comprising an operational amplifier to which 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 when a series combination of a longitudinal resistor and a second switch and the second switch is an analog switch output, the non-inverting operational amplifier input is connected to a common conductor, and the control inputs of each switch are connected to their respective switch control circuit outputs, and an inverting amplifier having an input, output and common conductor, 17) the inverting amplifier (16) is connected to the output (10) of the analog switch (1J) and via a resistor (25) to the input (5) of the analog switch (1), wherein the common wires (12) The switch (1) and the inverting amplifier (16) are connected and the wiring input is the input (5) of the analog switch (1) and the wiring output is the output (18) of the inverting amplifier (16).