CS205259B1 - Bridge with with intensifiers - Google Patents

Description

The invention solves a bridge with amplifiers for winding resistive paths as a circuit comparing continuously changing resistors.

In the resistance track winding devices used up to now, a Wheaston bridge is used to compare the amount of resistance of the winding path and the resistance of the path traveled on the reference standard. The bridge output voltage is used to control the servo mechanism controlling the pitch of the winding resistor. A major drawback of the Wheaston bridge is different. The large bridge voltage difference during winding, with the same absolute difference in winding resistance from the required instantaneous size given by the standard, since the total resistance value of the winding path already varies by several orders of magnitude.

This drawback is solved by the bridge of amplifiers according to the invention, which is based on the fact that the output of the reference voltage source is connected via the first reference resistor to the inverting input of the first amplifier and through the second reference resistor to the inverting input of the second amplifier. amplifier, the standard is connected between the inverting input and output of the second amplifier, the non-inverting input of the beer amplifier, the non-inverting input of the second amplifier and the reference voltage source are grounded to the common ground, the first output terminal is connected to the output of the first amplifier amplifiers.

By this connection, the output voltage of the bridge is proportional to the difference between the size of the winding resistor and the size specified by the standard, the reference voltage source used is simple, since neither the size of the voltage nor the high stability is demanded.

BRIEF DESCRIPTION OF THE DRAWINGS The connection of the bridge to the amplifiers according to the invention is shown in the attached drawing. The output of the reference n-voltage source J is connected via the first reference resistor A to the inverting input of the first amplifier J and through the second reference resistor B to the inverting input of the second amplifier 2. The variable resistor R is connected between the inverting input and output of the first amplifier J. connected between the inverting input and output of the second amplifier 2, the non-inverting input of the first amplifier 1, the non-inverting input of the second amplifier 2 and the reference voltage source are grounded to common ground Z, the first output terminal O is connected to the output of the first amplifier 1 and the second output terminal N is connected to the output of the second amplifier 2.

To explain the function, we start from the case that the first reference resistor A has the same size. as the second reference resistor B. The currents flowing in the feedbacks of amplifiers J and 2 are identical, when the magnitude of the variable resistances R- and etalon E is equal, the outputs of amplifiers J and 2 have the same voltage to earth Z and between output terminals 0 and N zero voltage. In the pin? the difference in the magnitude of the variable resistances R and the standard E, this difference multiplied by the feedback current of the first amplifier 1 occurs between the output terminals u and N. The thus generated voltage can be used to control the servo mechanisms compensating for deviations during winding. If the desired total value of the variable winding path resistance R is different from the total value of the standard E, the reference resistances A and B change the current ratios in the feedbacks z.-amplifiers 1 and 2 so that the voltage at the terminals 2 and N Country Z was the same for the total values of variable resistance R and standard E. The output voltage between the output terminals 0 and H for servo control is generated in the same way as in the previous case.

The invention can be used wherever continuously changing resistors need to be continuously compared, especially when winding precise resistive paths, when producing resistors, the output voltage can be controlled by comparators for terminating the grinding of the resistive spiral when reaching the size determination and the like.

Claims (1)

? THE INVENTION ' Bridge with amplifiers, characterized in that the output of the reference voltage source (3) is connected via the first reference resistor (A) to the inverting input of the first amplifier (1) and through the second reference resistor (B) to the inverting input of the second amplifier (2). variable resistor (R) is connected between the inverting input and output of the first amplifier (1), the standard (E) is connected between the inverting input and output of the second amplifier (2), while the non-inverting input of the first amplifier (1) ) and the reference voltage source is grounded to common ground (Z), the first output terminal (0) is connected to the output of the first amplifier (1) and the second output terminal (N) is connected to the output of the second amplifier (2).