CS211519B1 - Connection of the analogue demultiplexer with large input resistance - Google Patents

Description

(54) Connection of analogue demultiplexer with high input resistance

BACKGROUND OF THE INVENTION The present invention relates to an analogue demultiplexer having a high input resistance having an input and at least two outputs, comprising an operational amplifier provided with an inverting and non-inverting input and output, at least two switches each having a control input. at least two feedback resistors and a common conductor.

In some devices, for example in devices that are part of metering units, it is necessary to quickly and accurately switch the electrical signal, generally analogue, to several transmission paths. This switching can generally take place automatically, for example, according to a program, or synchronously with changes in the internal state of the device of which the demultiplexer is part, or the switching can be controlled remotely from the point of operation of the device.

A number of demultiplexer solutions are currently known.

The simplest solution is a mechanical demultiplexer containing a mechanical switch, by means of which the electrical signal is divided into individual transmission paths. The advantage of this demultiplexer is its relatively high accuracy, but the problem is that in many applications its limited switching speed and, last but not least, its mechanical unreliability.

In some applications, its unsuitability for remote control and electrical control at all is also detrimental.

Another solution is an electromechanical demultiplexer containing relays, by means of which the electrical signal is switched to individual transmission paths. The disadvantage of this demultiplexer is, as with the mechanical demultiplexer, its limited switching speed, considerable mechanical unreliability and, last but not least, the mechanical bounce of the contacts resulting from their switching, which may have an adverse effect on the operation of the device in some applications. .

For these reasons, electrical demultiplexers are used, particularly for fast switching. in which the mechanical contacts of switches or relays are replaced by non-contact switching elements, usually semiconductor, by means of which the electrical signal is switched to individual transmission paths.

The common disadvantage of electronic demultiplexers is that they fully exhibit unfavorable real properties of used switching semiconductor elements, especially voltage offset and switch resistance in the closed state.

This disadvantage does not have an analogue demultiplexer comprising an operational amplifier, to whose inverting input a demultiplexer input is connected via an input resistor and individual demultiplexer outputs are connected via individual feedback resistors, the demultiplexer outputs individually connected via switches to the opamp output and do not invert the opamp input. connected to a common conductor, but in some applications its relatively low input resistance is defective.

These drawbacks are largely eliminated by the high input resistor analog demultiplexer of the present invention, which is based on the fact that a common conductor is connected to the inverting input of the operational amplifier via the resistor and feedback outputs via the resistors. common nodes of the feedback resistors and switches, which are connected at the other end to the output of the operational amplifier.

The advantage of the circuitry according to the invention is that it does not apply the real properties of the semiconductor switches used. A large amplification of the operational amplifier is used to suppress the final resistance of the switch in the closed state and in particular to suppress the effect of this resistance on the applied voltage and the ambient temperature, since the switches are integrated into the direct branch of the operational amplifier and outputs are connected downstream.

A further disadvantage of the circuitry according to the invention is that an individual gain can be selected for each output of the circuitry by the amount of back resistance.

An advantage of the circuitry according to the invention is also the near infinite input resistance, which in practice can achieve values of 10? To 10 ⁹ ? Without difficulty when using conventional circuit elements.

An exemplary circuit of a high input resistor analog demultiplexer according to the invention is schematically shown in the drawing.

The apparatus comprises an input 1 and at least two outputs 2. The apparatus comprises an operational amplifier 2 provided with an inverting and non-inverting input 1, 2 & 2 and 8 provided with outlets 11. They are connected to their respective control inputs 2 of switches 2 ^and 8. The wiring further comprises a resistor 12 at least two feedback resistors 13 and 14 and a common conductor 15.

The non-inverting input 2 of the operational amplifier 2 is connected to the wiring input 2, to the inverting input 2 of the operational amplifier.2 a common conductor 15 is connected via a resistor 12.

Individual wiring outputs 2 are also connected to the inverting input 6 of the operational amplifier 2 via the feedback resistors 14 and 14, the wiring outputs 2 being individually connected via the switches 2 and 8 to the output 6 of the operational amplifier 2.

It is apparent from the wiring of the drawing that although only two outputs 2 are shown in the drawing, there may be more of them in a particular wiring and their number is limited only by the number of series combinations of feedback resistors and switches. In the operation of the demultiplexer according to the invention, only one switch is always closed, while the others are open. If the nth switch is closed, where n is any natural number or equal to the number of outputs 2 and all other switches are open, the output voltage of the nth output 2 is wiring, as is the case with a non-inverting amplifier with an operational amplifier. , equals w (5p ^+, ) ^u i «where n denotes the serial number of the closed switch, or outputs 2 to which the closed nth switch is connected, u _2n output voltage at nth output 2 wiring, R _2n value n- R ₁ resistance value 12 au, input voltage.

From the above relationship it is apparent that the choice of feedback resistor R _2n may be set for each output 2_ individual gain.

A minor disadvantage of the circuit according to the invention is that all other circuit outputs 2, i.e., the outputs 2 to which the disconnected switches are connected, are connected via a feedback resistor to a voltage source equal to the input voltage, since the operational amplifier 8 as a result of its operation, it maintains its inverting input £ at the same potential as its non-inverting input £. However, this disadvantageous characteristic can be overcome by the appropriate connection of the following circuits (not shown) in particular applications.

The analogue demultiplexer circuit according to the invention can be used in particular for applications in switchable gain amplifiers, inverters and similar devices where high input resistance is required.

Claims (1)

SUBJECT OF THE INVENTION Connection of analogue demultiplexer with high input resistance, equipped with input a; at least two outputs, comprising an operational amplifier provided with an inverting and non-inverting input and output, at least two switches each having a control input, a switch control circuit, a resistor, at least two feedback resistors and a common conductor, characterized in that the inverting input (4) the common conductor (15) is connected via the resistor (12) via the resistor (12) and the wiring outputs (2) via the feedback resistors (13 and 14), the wiring input (1) forming the non-inverting input (5) 3) and the outputs (2) form common nodes of the feedback resistors (13 and 14) and the switches (7 and 8), which are connected at their other end to the output (6) of the operational amplifier (3).