CS231226B1 - A circuit for transmitting a smaller of two signals - Google Patents

Abstract

A circuit for transmitting the smaller of two signals, the output of which is always the smaller of two input variable signals. The purpose of the invention is to create a simple circuit with high accuracy requirements. The stated purpose is achieved by a circuit consisting of two operational amplifiers, two diodes and four resistors (Fig.). One input terminal of the circuit is connected to the non-inverting inputs of the operational amplifiers and the second input terminal is connected via a resistor to the inverting input of the first operational amplifier. At the same time, the anode of one diode is connected to this input, the cathode of which is connected to the output of this operational amplifier and at the same time to the anode of the second diode, the cathode of which is connected via a feedback resistor to the inverting input of the first operational amplifier and via a resistor to the inverting input of the second operational amplifier. A feedback resistor is placed between the output of the second operational amplifier and its inverting input. ! The product of the sizes of the feedback resistors 4 is equal to the product of the sizes of the resistors connected to the inverting inputs of the operational amplifiers

Description

(54) Circuit for the pfenos of the smaller of two signals

A circuit for transmitting the smaller of two signals, whose output is always the smaller of two input variable signals.

The purpose of the invention is to create a simple circuit with high accuracy requirements.

The above purpose is achieved by a circuit consisting of two operational amplifiers, two diodes and four resistors (Fig.). One input terminal of the circuit is connected to the non-inverting inputs of the operational amplifiers and the other input terminal is connected via a resistor to the inverting input of the first operational amplifier. At the same time, the anode of one diode is connected to this input, the cathode of which is connected to the output of this operational amplifier and at the same time to the anode of the second diode, the cathode of which is connected via a feedback resistor to the inverting input of the first operational amplifier and via a resistor to the inverting input of the second operational amplifier. A feedback resistor is placed between the output of the second operational amplifier and its inverting input.

^! The product of the sizes of the feedback resistors ₄ is equal to the product of the sizes of the resistors connected to the inverting inputs of the operational amplifiers.

The invention relates to a circuit for transmitting the smaller of two signals. It is a circuit whose output is always the smaller of two input variable signals.

So far, two circuits are known that solve this problem. The principle of the first known type is that each of the inputs of the circuit is connected to the cathode of one diode and to the junction of the anodes of these diodes. One end of a resistor is connected, the other end of which is connected to a potential higher than the maximum value of the input voltage. The output voltage is the voltage across this resistor and is equal to the smaller of the two input voltages increased by the voltage drop across the diode. The main drawback of this type of circuit is the dependence of the voltage drop across the open diode on the magnitude of the input voltage. This dependence is usually removed by supplying the diodes from a constant current source.

Another drawback is the temperature dependence of the voltage drop across the diode. Its effect is usually reduced by temperature compensation. Sometimes a non-zero output resistance can also be a defect, which is solved by including an isolating amplifier. In general, it can be said that this circuit in its simple form will only satisfy very low accuracy requirements. Eliminating its shortcomings is possible, but the result is a relatively complex connection.

The principle of the second type of circuit is that both input signals are fed to a controlled electronic switch, which switches one of these input signals to the output, depending on the output state of the comparator, which compares the mutual magnitude of the two input signals. This circuit works accurately. Its disadvantage is greater circuit complexity due to the larger number of components used. A level converter must usually be connected to the comparator output, which converts the comparator output level to a level suitable for controlling the electronic switch. This electronic switch itself is also usually made up of several components. If there is a non-zero output resistance, it is necessary to connect an isolating amplifier to the input.

The above-mentioned shortcomings are eliminated by a circuit for transmitting the smaller of two signals according to the invention, consisting of two operational amplifiers, two diodes and four resistors. Its essence is that one input terminal is connected to the non-inverting inputs of both operational amplifiers and the other input terminal is connected via a resistor to the inverting input of one operational amplifier. At the same time, the anode of a diode is connected to the input of this operational amplifier, the cathode of which is connected both to the output of this operational amplifier and to the anode of another diode. · .

The cathode of this second diode is connected both through a feedback resistor to the inverting input of the first operational amplifier and through a resistor to the inverting input of another second operational amplifier. The output of this second operational amplifier, which is also the output of the entire circuit, is connected through a feedback resistor to the inverting input of this operational amplifier. The product of the sizes of the feedback resistors is equal to the product of the sizes of the resistors connected to the inverting inputs of these operational amplifiers. The advantage of this circuit is that, with high accuracy, the number of elements required for its implementation is limited.

In addition, the output resistance of the circuit is negligible and the input resistance of the input formed by the connection of the non-inverting inputs of the operational amplifiers is large.

An example of the circuit connection is shown in the attached drawing. The circuit consists of two operational amplifiers £ ^B íi úvou diodes 2 and £, and four resistors 6., 2.8, where resistors 6 and 8 are feedback. One input terminal of the circuit is connected to the non-inverting! inputs of operational amplifiers J. and 2.. The second input terminal is connected via resistor 2 to the inverting input of operational amplifier J_. To this inverting input of operational amplifier £ is connected the anode of diode i, the cathode of which is connected both to the output of operational amplifier 2 and to the anode of diode £.

The cathode of the diode £ is connected, on the one hand, through the feedback resistor £ with the inverting input of the operational amplifier £ and, on the other hand, through the resistor 2 with the inverting input of the operational amplifier 2,, between the output and the inverting input of the operational amplifier &, a feedback resistor 8 is connected. The output of this operational amplifier £ is also the output of the entire circuit. For the resistors £,2. and the feedback resistors 6 and 8, whose sizes are respectively Rg, Ry, Rg, Rg, Rg, ^R 8 ^R 6 ⁼ ®7 ^R 5

The function of this circuit is as follows. If ^U vst1 is less than U _t2 the diode £ does not conduct, it is closed and the diode £ conducts, it is in the open state. The output voltage then applies:

^J exit ( - U.

rose + U.

vst2 ^{+ U} vst2.< ^{1 + K} 8 ^R 8 ^R 6 «7 «7 ^R 5 ^R 6 ⁺ «5 ^R 8 ⁺ ) + Úvst2 -- = U.

®7 am!

«8^ «7 ^R 5 ) = U.

^R 8 ^R 6 in!

«7 ^R 5 ^{+ U} vst2 < ¹ »8 «6 «7 ^R 5

R R

If the condition is met, R _g Rg = R? Rg or = 1 , then = ^u vsti ·

If U _ygtl is greater than U _vgt2 , diode £ is closed and current flows through diode £. The output voltage then applies:

output ®7 ⁺ *6 ^U input2 ⁺ <' ⁺

R _{? +} Rg ) u, vst2 ^{5ili: U} vst = ^U vst2.

The advantage of the circuit is high accuracy of operation with a small number of components used. It is also possible to use a double operational amplifier in the circuit.

The circuit can be used not only in all connections where it is required to monitor a smaller signal, but also, for example, in limiting circuits; if we connect any input of this circuit to a constant voltage U _Q and apply a variable input voltage U _vst > to the second input, the circuit will behave as a precise limiting circuit with the characteristic

Claims (1)

SUBJECT OF THE INVENTION Circuit for transmitting the smaller of the two signals, consisting of two operational amplifiers, two diodes of four resistors, characterized in that one input terminal is connected to the non-inverting inputs of the operational amplifiers (1) and (2) ε the other input terminal is connected via a resistor (5) with an inverting input of the operational amplifier (i) not connected to the anode diode (3), the cathode of which is connected to the output of the operational amplifier (1), with the anode of the diode (4); 6) with an inverting input of the operational amplifier (i) and, on the other hand, through a resistor (7) with an inverting input of the operational amplifier (2), with a feedback resistor (8) connected between the output the magnitude of the feedback resistances (6) and (8) is equal to the product of the magnitude of the resistances (5) and (7).