SU873136A1 - Digital automatic bridge - Google Patents

Description

The invention relates to information-measuring equipment and can be used to measure the components of complex resistance. Known digital automatic bridges containing a bridge circuit, a power generator, a reversible counter, a control unit, an amplifier, an equilibrium detector, the balancing of which is performed according to the phase-sensitive principle £ 1]. A

The disadvantage of these devices is that they have instability of readout due to the instability of the sensitivities of the bridge circuit and amplifier.

The closest in technical essence to the invention is a digital automatic bridge containing a generator, a bridge circuit, a selective amplifier, detector, a reversible counter, a modulator, a control unit, a reverse trigger, a digital readout unit, a phase-sensitive detector, two keys and there are three elements in which the balancing of the bridge circuit far from the equilibrium point is carried out according to the phase-sensitive principle, and near the equilibrium - according to the extremally 'modulation principle £ 2J. ™

The disadvantage of this bridge is that it has a relatively low reliability and stability of the balancing system due to the influence of phase distortions arising in the amplification path of the nonequilibrium signal on the normal functioning of the phase-sensitive detector.

The purpose of the invention is to increase reliability by increasing the noise immunity of the balancing system of a digital automatic bridge.

To achieve this goal, a digital automatic bridge containing a series-connected power generator, a bridge circuit, an amplifier, a detector, two keys, the first inputs of which are connected to the first output of the control unit, a sign trigger, the output of which is connected both through the modulator and through the reversible counter to bridge circuit, the output of the reversible counter is also connected to the input of the digital display unit, a phase-sensitive detector, the first input of which is connected to the output of the power generator, and the second input is connected to the output of the amplifier, the OR-NOT element is equipped with a second OR-HE element, a switching trigger, a selectivity switch, an OR element, six AND elements, the inputs of the first OR-HE element being connected to the key outputs., and the inputs of the second OR- 'NOT element to the outputs of the first and the second elements And, respectively, connected to the first inputs of the third and fourth elements And, the outputs of which are connected to the corresponding installation inputs of the trigger sign, and the second inputs are connected to the second input of the fifth element And the inverse output of the trigger an input, the zero input of which is connected to the output of the first OR-NOT element, and the single input is connected to the output of the second OR-NOT element> the direct output of the switching trigger through the selectivity switch is connected to the second input of the amplifier, and also connected to the first input of the sixth element AND, the second whose input is connected to the second output of the control unit, and the output is to the input of the modulator, the first input of the OR element is connected to the output of the fifth AND element, the second input is connected to the output of the second key, and the output to the counting input of the reverse counter, the first inputs of the first, second and fifth AND elements are connected to the first output of the control unit, the second inputs of the first and second AND elements are respectively connected to the first and second outputs of the phase-sensitive detector, the output of the neqBoro key is connected to the counting input of the sign trigger, and the second input to the second input second key and to the detector output.

In FIG. 1 shows a block diagram of a device; in FIG. 2 - dependence of the module of the output voltage of the bridge circuit on an adjustable parameter at different amplification factors (degree of selectivity) of the amplifier.

The device contains a power generator 1, a bridge circuit 2, an amplifier 3, a detector 4, a control unit 5, a modulator 6, a reversing meter 7, a digital indication unit 8, a trigger of 9 characters, a phaeo-sensitive detector 10, AND 11-16 ^ elements, ORINE 17 elements , 18, switch trigger 19, keys 20,21, selectivity switch 22 and OR element 23.

The principle of operation of the device is as follows.

Generator 1 feeds the bridge circuit

2. Nonequilibrium voltages of the bridge circuit arrive at the input of amplifier 3. The output signal of amplifier 3 is simultaneously supplied to the inputs of the phase-sensitive detector 10 and amplitude detector 4. Near the equilibrium point, due to the low level of the nonequilibrium signal, the phase-sensitive detector 10 does not work, and the signals at its outputs are absent. With §th, the clock pulses from the control unit 5 do not pass through the elements And 11 and 12.

At the output of the element OR-NOT 17 there is a single signal. The switching trigger 19 is an S-type trigger, which, at the same time as single signals at both outputs, takes only a single state. Therefore, in the absence of signals at the output of the phase-sensitive detector 10, regardless of the output signal of the OR-NOT 18 element, the switching trigger 19 takes a single state. At the same time, the elements And 13-15 are locked · and the element And 16 is unlocked, the selectivity switch 22 increases the selectivity of the amplifier 3. The modulator 6 through the open element And 16 receives the clock pulses of the control unit 5 and makes periodic changes of the adjustable element of the bridge circuit 2 by one step. The direction of modulation changes and counting of the reverse counter 7 is determined * by the state of trigger 9 of the sign. The modulated nonequilibrium voltages are fed through an amplifier 3 to the input of the detector 4. The envelope allocated by the detector 4 is supplied as a control signal to the inputs of the keys 20 and 21. With a positive polarity of the modulation pulses, a key 21 is unlocked at the output of the detector 4, through which the clock pulses of the control unit 5 are fed to the counting input of the trigger 9 signs and overturn it. If the polarity of the modulation pulses is negative, the key 20 is unlocked, and the clock pulses passing through it and the OR-NOT 18 element are fed to the input of the reversible counter 7, which balances the bridge circuit.

Far from the equilibrium point, where the level of the nonequilibrium signal is higher than U n (Fig. 2), there are no modulation pulses at the detector output. Moreover, since there is a single signal at one of the outputs of the phase-sensitive detector, the switching trigger switches to the zero state, the selectivity switch is activated, and the amplifier 3 becomes non-selective. The output signal of the phase-sensitive detector with the appearance of clock pulses through the elements And 14 and 15 is fed to the corresponding input of the trigger 9 characters. Reverse counter 7, with the receipt through the elements K. 13 and OR 23 clock im- ·. pulses, balancing the bridge circuit. When the voltage amplitude decreases, the disequilibrium to the level of the sensitivity threshold and _o - (Fig.

2) a phase-sensitive detector 10 at both outputs there is a zero signal at which the switching trigger caps over, and then balancing is carried out according to the extreme modulation principle.

. 873136

When the bridge is in equilibrium, there are no negative polarity pulses at the output of detector 4, the state of the reverse counter does not change, and the count is removed for the digital indication block. With a significant level of the nonequilibrium signal, when the signals of the phaeo-sensitive detector are required, the amplifier 3 becomes no choice. so that the phase distortions of the signal inherent in selective amplifiers do not interfere with the normal functioning of the phase-sensitive detector. If the signal of disequilibrium is weak, according to the signal of the switching trigger, the amplifier is selective, it has mechanical resistance to hanging, and the signals are pa.

becomes increases the equilibrium systems and then use the extremum-detector 20 trigger to switch to

The introduction of the device circuit eliminates the self-oscillating mode of switching the phase-sensitive detector, which could take place at points in (in ') and c (c *) (see Fig. 2). When the output signal of amplifier 3 is reduced to the level and ₀ (Fig. 2) at the outputs of the phase-sensitive detector, the signals cease, the switching trigger 19 capsizes, and the selectivity trigger is activated. With a change in the coefficient, the level of the output signal 3 rises from the point in (in ¹ s (s'), ie, exceeds the threshold voltage level 35 V, U _{O of the} phase-sensitive detector. This causes the phase-sensitive detector to be turned on again. However, the switching trigger it does not return to its previous state, and then balancing is carried out according to the signal of the extremum detector. The reverse transition of the switching trigger can occur only when the output voltage level of the amplifier and _n exceeds, that is, at points a and a '(Fig. 2), when happens it cuts off the modulation, after which the switch for selectivity triggers a transition from point a ( ^a 'to point 6 (6'), and then balancing is carried out according to the signal of the phase-sensitive detector.

switch, power, amplifier) to the point

The technical efficiency of the 65- Tenia lies in the fact that with its use stability and reliability are increased while maintaining the accuracy of the well-known digital automatic bridges of tracking balancing. Reliability (availability factor) of the balancing system is increased by automatically changing the selectivity of the amplifier depending on the degree of imbalance of the bridge circuit, which is carried out by the switching trigger. With its help, automatic switching of the equilibrium detectors is carried out, which excludes their self-oscillating mode and increases the stability of the balancing system.

Claims (2)

The invention relates to information technology and can be applied to measure the components of the impedance. Digital automatic bridges are known that contain a bridge circuit, a power generator, a reversible counter, a control unit, an amplifier, and an equilibrium detector, the equilibration of which is performed according to the phase-sensitive principle t. A The disadvantage of these devices is that they have a counting instability due to the instability of the sensitivity of the bridge circuit and amplifier. The closest in technical essence to the invention is a digital automatic bridge, a generator, a bridge circuit, a selective amplifier, a detector, a reversible counter, a modulator, a control unit, a reverse trigger, a digital reading unit, a phase-sensitive detector, two keys and three elements, wherein balancing the bridge circuit far from the equilibrium point is carried out according to the phase-sensitive principle, and near equilibrium - according to the extremal-modulation principle {, 2, the disadvantage of this bridge is that it and There is a relatively low reliability and stability of the balancing system due to the influence of phase distortions arising in the path of amplification of the imbalance signal on the normal operation of the phase-sensitive detector. The purpose of the invention is to increase reliability by increasing the noise immunity of the digital automatic bridge balancing system. To achieve this goal, a digital automatic bridge containing a series-connected power generator, a bridge circuit, an amplifier, a detector, two keys, the first inputs of which are connected to the first output of the control unit, a sign trigger whose output is both through the modulator and through a reversible counter connected to the bridge circuit, the output of the reversible counter is also connected to the input of the digital display unit, the phase-sensitive detector, the first input of which is connected to the output of the power generator, and the second input to the high voltage input ITEL, OR-NOT element, is equipped with a second OR-NOT element, a switching trigger, a selectivity switch, an OR element, six AND elements, and the inputs of the first OR Element are not connected to the outputs of the keys. And the inputs of the second element ORINE - with the outputs of the first and The second elements And, respectively, are connected to the first inputs of the third and fourth elements And, the outputs of which are connected to the corresponding installation inputs of the sign trigger, and the second inputs are connected to the second input of the fifth element And and the inverse output of the trigger switching, the zero input of which is connected to the output of the first element OR NOT, and the unit one with the output of the second element OR NOT the direct output of the switching trigger through the selectivity switch is connected to the second input of the amplifier, and also connected to the first input of the sixth element AND, the second input of which is connected to the second output of the control unit, and the output to the modulator input, the first input of the OR element is connected to the output of the fifth AND element, the second input is connected to the output of the second key, and the output to the counting input of the reversible counter the first inputs of the first, second, and fifth elements of And are connected to the first output of the control unit, the second inputs of the first and second elements of And are respectively connected to the first and second outputs of the phaeosensitive detector, the output nej: | BOto of the key is connected to the counting input of the sign trigger, and the second input - to the second input of the second key and to the output of the detector. In FIG. 1 shows a block diagram of the device; in fig. 2 shows the dependence of the output voltage of the bridge circuit on the controlled parameter at different gain factors (degree of selectivity) of the amplifier. The device contains a power generator 1, a bridge circuit 2, an amplifier 3, a detector 4, a control unit 5, a modulator 6, a reversing detector, a digital display unit 8, a trigger 9 characters, a phase detector 10, elements 11-11, elements OR NOT 17.18, switch trigger 19, keys 20.21, selectivity switch 22, and element OR 23. The principle of operation of the device is as follows. The generator 1 feeds the bridge circuit 2. The imbalance of the bridge is fed to the input of the amplifier 3. The output signal of the amplifier 3 is simultaneously fed to the inputs of the phase-sensitive detector 10 and the amplitude detector 4. Near the equilibrium point, due to the low level of the signal, the unequal weight of the phase-sensitive detector 10 does not work and there are no signals on its outputs. In this case, the clock pulses from the control unit 5 do not pass through the elements 11 and 12. At the output of the element OR NOT 17 there is a single signal. Switching trigger 19 is an S-type trigger, which, with simultaneously single signals, takes only one state at both outputs. Therefore, in the absence of signals at the output of the phase-sensitive detector 10, regardless of the output signal of the OR-NOT 18 element, the switching trigger 19 takes on a single state. At this, elements 13 and 15 are locked and element 16 is unlocked, selectivity switch 22 increases the selectivity of amplifier 3. Modulator 6, through open element 16, receives clock pulses of control unit 5 and makes periodic changes to the adjustable element of bridge circuit 2 by one step. Directions The modulation change and the counting of the reversible counter 7 are determined by the state of the trigger 9 of the sign. The modulated imbalance voltage through the amplifier 3 is fed to the input of the detector 4. The envelope selected by the detector 4 is fed as a control signal to the inputs of the keys 20 and 21. With a positive polarity of the modulation pulses at the output of the detector 4, the key 21 is opened, through which the clock pulses of the block 5 controls are fed to the counting input of the trigger 9 characters and overturn it. With the negative polarity of the modulation pulses, the key 20 is unlocked, and the clock pulses, the passage through it and the element OR-NOT 18, are fed to the input of the reversible counter 7, which balances the bridge circuit. Far from the equilibrium point, where the signal level is out of equilibrium above U (Fig. 2), there are no modulation pulses at the detector output. In this case, since there is a single signal at one of the outputs of the phase-sensitive detector, the switching trigger goes to the zero state, the selectivity switch works, and amplifier 3 becomes non-selective. The output signal of the phase-sensitive detector when clock pulses appear through the elements 14 and 15 is fed to the corresponding input of the trigger 9 of the sign. Reversible counter 7, with the arrival of 23 clock pulses through the PC13 and OR elements, balances the bridge circuit. When the amplitude of the voltage decreases, the imbalance to the sensitivity threshold level U, - (Fig. 2) of the phase-sensitive detector 10 at both of its outputs / soda has a zero signal at which the trip switch trips and further equilibration is carried out according to an extreme modular principle. At the equilibrium of the bridge at the exit de. In tector 4, the negative polarity pulses are absent, the state of the revolving counter does not change, and the digital indication block is cleared. With a significant level of imbalance, when the signals of the phase-sensitive detector are necessary, the amplifier 3 becomes non-selective so that the phase distortions of the signal inherent in the selective amplifiers do not disrupt the normal operation of the phase-sensitive detector. With a weak imbalance signal, according to the switching trigger signal, the amplifier 3 becomes selective, it increases the noise immunity of the equilibrium hanging systems, and then the extremum detection signals are used. The introduction of a switching trigger into the device circuit eliminates the self-oscillating switching mode of a phase-sensitive detector, which could occur at points in (c) and c (c) (see Fig. 2). When the output signal of the amplifier 3 decreases to the level Uo (Fig. 2), the outputs of the phase-sensitive detector stop the signals, the trigger trigger 19 is canceled, and the selectivity switch is triggered. At the same time, due to the change in the gain factor, the output level of the amplifier 3 rises from point (c) to point (c), i.e. exceeds the threshold voltage level of the JJo phase-sensitive detector. This causes the phase-sensitive detector to re-start. However, the trigger switch does not return to the previous state, and further balancing is carried out by an extremum detector signal. The reverse transition of the switching trigger can occur as soon as the output voltage level of the amplifier Tsc is exceeded, i.e. at points a and a (Fig. 2), when modulation is cut, after what the switch of selectivity triggers the transition from point a (a) to point b (b), and then balancing is carried out by sig-, 1} alam phase-sensitive deIreKTODa . The technical efficiency of the Invention | I & C is that with its application, stability and reliability are improved while maintaining the accuracy of the known digital automatic tracking balancing bridges. The reliability (availability factor) of the equilibration system is increased by automatically changing the selectivity of the amplifier depending on the degree of imbalance of the bridge circuit, which is accomplished by a switching trigger. With its help, the automatic switching of the equilibrium detectors is carried out, which excludes their self-oscillation mode and increases the stability of the balancing system. Invention formula Digital automatic bridge, coz. holding a power supply generator connected in series, a bridge circuit, an amplifier, a detector, two keys, the first inputs of which are connected to the first output of the control unit, a sign trigger whose output is connected to the bridge through a modulator and through a reversible counter counting} 1ka. It is also connected to the input of a digital display unit, a phase-sensitive detector, the first input of which is connected to the output of the power generator, and the second input - to the output of the amplifier, OR-NOT element, characterized in that and its reliability by increasing the noise immunity of the balancing system, it is equipped with a second OR-HL element, a switching trigger, a -selectivity switch, an OR element, six TCMH AND elements, and the inputs of the first OR-NOT element are connected to the outputs of the keys, and the inputs of the second element OR- NO outputs of the first and second elements And, respectively, connected to the first inputs of the third, fourth elements And, the outputs of which are connected to the corresponding installation inputs of the trigger sign, and the second inputs are connected About the second input of the first element AND and the inverted output of the switching trigger, the zero input of which is connected to the output of the first OR OR NOT element, and the single input to the output of the second OR OR element, direct output of the switching trigger via the selectivity switch. Connected to the second input the amplifier, and also connected to the first input of the sixth And element, the second input of which is connected to the second output of the control unit, and the output to the modulator input, the first input of the OR element is connected to the output of the fifth And element, the second input is connected to the output of the second key, and the output to the counting input of the reversible counter, the first inputs of the first, second and fifth elements And are connected to the first output of the control unit, the second inputs of the first and second elements And respectively are connected to the first and second outputs of the phase-sensitive detector, the output of the first the key is connected to the counting input of the sign trigger, and the second input is connected to the second input of the key and to the output of the detector. Sources of information taken into account in the examination 1, Kneller V.Yu. Automatic measurement of their complex resistance M.-L., Energie, 1968, p. 266. 2. USSR author's certificate 561143, cl. G 01 R 17/10, 1976 (prototype).