SU553542A1 - Digital Extreme AC Bridge - Google Patents

Description

auxiliary parameter shivan - to the second modulator output of the main parameter; the outputs of the summing devices are connected to the inputs of devices for evaluating the sign of the increment, and the first outputs of the modulators are connected to the measuring circuit.

A schematic diagram of a digital extreme bridge is shown in drawing.

The digital bridge contains a power source 1, a measuring circuit 2, consisting of a transformer 3, the voltage of the object to be measured 4, an auxiliary transformer 5, standard measures 6, 7, a commutator of currents 8, modulators 9 and 10 of the main and auxiliary parameters, respectively, unbalance signal amplifier 11, the summation devices 12, 13, the devices 14, 15 for evaluating the sign of the signal increment of imbalance, balancing elements 16, 17.

Elements 9, 12, 14, and 16 form a channel for balancing the main parameter, elements 10, 13, 15, and 17 are a channel for balancing an auxiliary parameter.

Works digital bridge as follows.

After selecting the measurement subrange, modulators 9 and 10 are simultaneously switched on. Through their first outputs "a and" 5, respectively, they act on the winding of the comparator of currents 8 of the measuring circuit 2. The imbalance signal containing information on the response of the measuring circuit to modulation influences is removed from the indicator winding of the current comparator and is fed to the amplifier I. The output signal of the amplifier is fed to the inputs "0 and" g of summing devices 12 and 13.

A modulation signal from the output of the modulator of auxiliary parameter 10 is fed to the input "d of the summing device 12 entering the equilibrium channel of the main parameter, and a modulating signal 13 to the input of the auxiliary parameter 13 entering the balance channel of the auxiliary parameter the signal from the output of the 3 modulators of the main parameter 9. The amplitude of the modulation signals taken from the second outputs of each of the modulators is chosen equal to the amplitude of the increments arising in the imbalance signal from the effects of measuring The specified circuit of these modulators multiplied by the nominal gain of the amplifier 11, and the phase opposite to that of the mokulyatsiye increments in the imbalance signal at the output of the amplifier I. Due to this, the full compensation of the reaction occurs at the summing point of each of the summing devices 12 and 13 the measuring circuit on the modulation effects of the modulator entering into a different channel of the trimming with a corresponding summing device. Thus, at the summing point of the device 12, belonging to the main parameter balancing channel, the response of the measuring circuit to the modulation effects of the modulator of the auxiliary parameter 10 is compensated. Similarly, the response of the measuring circuit to the modulation effects of the modulator of the main parameter 9 is compensated at the summing point of the device 13. As a result, the inputs of each of the devices 14 and 15 receive only those signals that

represent the response of the measuring circuit to the modulation effects of the modulator belonging to the same equilibration channel as this device for evaluating the sign of the increment.

The output signals of the devices 14 and 15 are supplied to the balancing elements 16 and G /, respectively, under the control of which the digital bridge, by adjusting the number of turns of the windings of the transformer 3 and the windings of the auxiliary transformer 5, leads to an equilibrium state.

Thus, in the proposed digital bridge, both temporal and spatial combination of modulation effects occur. In this case, only one unbalance amplifier is used, which simplifies the circuit.

Claims (1)

Invention Formula Digital extremum AC bridge containing a power source, a measuring circuit, a disequilibrium signal amplifier, balancing channels for the main and auxiliary parameters, each which consists of a modulator, a summing device, a balancing element, the input of which is connected to a device for estimating the sign of an imbalance signal increment, differing in that.m, with the aim of To broaden the circuit, the first input of each of the summing devices is connected to the output of the imbalance signal amplifier connected to the outputs of the measuring circuit, the second input of the summing device entering into the balancing channel of the main parameter is connected to the second modulator output of the auxiliary parameter, and the second input of the summing device included in the balancing channel of the auxiliary parameter the parameter to the second output of the modulator of the main parameter; the outputs of the summing devices are connected to the inputs of the devices for estimating the sign of the signal increment of imbalance, and the first outputs of the modulators are connected to the measuring circuit. ГГШ1 nJ L