SU444988A1 - Double Transformer Bridge - Google Patents

Description

(54) DOUBLE TRANSFORMER BRIDGE

one

The invention relates to the field of cleaning technology and can be used in the construction of digital automatic AC voltage for measuring complex resistances.

The known double transformer bridges containing a power source, a null indicator, exemplary measures, a voltage comparator, a current comparator, a parasitic parameter compensation unit of the branch of the object being measured, including an amplifier and auxiliary transformers, do not provide high accuracy of compensation, especially when used in said semiconductor switch branch for selecting a measuring range. The design of the compensation block of such bridges is complex.

The purpose of the invention is to improve the accuracy of compensation for the parasitic parameters of the branch of the object being measured and at the same time to simplify the design of the compensation unit.

Thanks to this

that a voltage follower is connected to the voltage winding in the branch of the bridge measurement object, the output of which includes the primary winding of one of the auxiliary transformers and one of the amplifier inputs, the output of which through the secondary winding of the auxiliary transformer is included in the current circuit of the object being measured, a high potential the terminal of the latter through one of the windings of the second auxiliary transformer is connected about the second input terminal of the amplifier, and the low-potential one is connected with the other winding go transformer.

The drawing shows the scheme of the proposed bridge.

The bridge contains a source of power supply I, a transformer 2 voltage comparator 3 currents, a null indicator 4, a sample measure 5, semiconductor switches b-I.

The input of a voltage follower 12 having a high input impedance is connected to the winding of a voltage transformer 2, used to select a measuring range. Due to this, the winding is operating in idle mode and the section of the ground circuit - the input of the voltage follower is practically not flowing around, and the voltage is applied to the input of the voltage follower full of the "IV" winding. As a result, the influence of spurious parameters (residual resistance of open keys and copper winding h) on the measurement accuracy is eliminated. The secondary winding of the auxiliary transformer 13 is connected between the object being measured and the output of the 14o amplifier. One of the inputs of the amplifier is connected to the input of the voltage follower and the other through the secondary winding of the second auxiliary transformer 15, the primary winding of which is connected between the ground and the low-potential clamp 16 of the object to be measured, - to a high-potential clamp 17 last; By attacking the elements of the compensation block, the measurement object is fed by an additional voltage, which is amplified by amplifier 14, the difference signal between the emulator Dssss of the winding yy and the sum of the voltages J arising in the circuit sections of the input of the voltage follower is a high-potential clamp of the measurement object on one side, and a LOW-potential clamp of the measurement object is ground on the other As a result, the voltage acting on clamping the measurement object becomes equal to (with exact pre-statism amplifier 14) emf. winding} g. Thus, the influence of the parasitic parameters of the mentioned sections of the measured object on the accuracy of the bridge measurement is also eliminated. BACKGROUND OF THE INVENTION A double transformer bridge containing a power source, a null indicator, exemplary measures, a voltage transformer, a current comparator and a parasitic parameters compensation unit of the measured object branch, including an amplifier and auxiliary transformers, characterized in that, to improve the accuracy of compensation while at the same time simplifying the compensation block, especially when using semiconductor switches in the mentioned branch for selecting the measuring range, it is applied to the transformer winding A voltage follower is connected to the measuring object branch, the output of which includes the primary winding of one of the auxiliary transformers and one of the inputs of the mentioned amplifier whose output through the secondary winding of the auxiliary transformer is connected to the current circuit of the measured object, the high-potential clamp of the latter through one of the second windings the auxiliary transformer is connected to the second input terminal of the amplifier, and the low potential is connected to another winding of this trans