CS236593B1 - Connection for electronic controlled resistive voltage divider - Google Patents

Abstract

Electronically controlled resistive wiring a voltage divider with an input source voltage connected through resistor to output the connection terminal and at the same time the individual resistors branches dividers whose second outlets they are always connected to a semiconductor pair switches, the second terminals of the first switches each pair is associated with an inverting the input of the operational amplifier with very high input resistance, whose non-inverting input is connected to zero level and whose output is connected to the second terminals of the second switches from each pair.

Description

The invention relates to an electronically controlled resistive voltage divider. Commonly used circuits of electronically controlled resistors use a step resistive divider whose taps are switched by contactless switches to the output.

The application of this circuit is limited by the fact that suitable contactless switches with higher closing voltage have not been produced yet. The above limitation eliminates the wiring of the electronically controlled resistive voltage divider according to the invention, which is characterized in that the input voltage source is connected to a resistor whose second terminal is connected to the output terminal of the wiring and simultaneously with resistors of individual branches of the divider whose second terminals are in each case a pair of semiconductor switches, the second terminals of the first switches of each pair being connected to an inverting input of a very high input resistance operational amplifier whose non-inverting input is connected to zero level and whose output is connected to the second switch terminals of each pair.

The main advantage of the circuitry according to the invention is the replacement of defective or expensive components and the elimination of the influence of the switch resistance in the closed state on the resulting transmission. The wiring of the electronically controlled voltage divider is described in more detail below with reference to the attached drawing.

The input voltage source U1 is connected via a resistor RO to the output terminal U2 and simultaneously to one terminal of resistors RI to RN of the individual divider branches, the other terminals of which are connected to one pair of semiconductor switches SI1 and SOI to SIN and SON.

The second terminals of the first switches S1 to SIN are connected to each other and connected to the inverting input of the operational amplifier Z with a very high input resistance. The second terminals of the second switches SO1 to SON from each pair are also interconnected and connected to the output of the operational amplifier Z. The non-inverting input of the operational amplifier 6 is connected to zero.

The switches are switched in full pairs and only one pair can be switched at a time. If all switches are open, the output voltage at output terminal U2 is equal to the input voltage at source U1.

For example, if a pair of switches Sil and SOI are closed, the operational amplifier Z functions as a voltage follower and maintains a zero level at the lower terminal of resistor R1. The divisor transfer is then defined by:

U2 / U1 «R1 / / R1 + R0 /

The connection of the electronically controlled voltage divider according to the invention can be used wherever it is necessary to divide the voltage higher than the reverse voltage of the available semiconductor switches. |

Claims (1)

Connection of electronically controlled resistive voltage divider, characterized in that the source (U1) of the input voltage is connected via a resistor (RO) to the output terminal (U2) of the circuit and simultaneously to resistors (R1 to RN) of individual divider branches. to a pair of semiconductor switches (Sil and SOI to Sil and SON), the second terminals of the first switches (Sil to SIN) of each pair being connected to an inverting input of an operational amplifier (Z) with a very high input resistance. the output of which is connected to the second terminals of the second switches (SOI to SON) of each pair.