SU970263A1 - Device for tolerance checking of capacitor capacitance and resistance - Google Patents

Description

The invention relates to measuring technique, in particular, to the measurement of circuit elements with lumped parameters.

A device for measuring the resistance of resistors, obrazuyte- ⁵ of a closed circuit which comprises an operational amplifier whose entrance is connected to a voltage source in an operational amplifier feedback circuit included rezys measured ^Torr ί ^{January 1}

A disadvantage of the known device is the low accuracy of the measurement, due to the mutual influence of the elements of the measured circuit.

The closest technical solution to the proposed one is a device for measuring the parameters of complex electrical circuits, containing a calibration voltage source connected through a measuring unit to the inputs of operational amplifiers, the outputs of which are connected to the inputs of two threshold comparators £ 2 J.

A disadvantage of the known device is the low accuracy of the measurement.

The purpose of the invention is. improving measurement accuracy.

This goal is achieved by the fact that in the device for tolerance control of the capacitor and active resistance, containing an operational amplifier, in the negative feedback circuit of which a controlled element is included, and at the input a reference element, a constant reference voltage source and two comparators, an alternating reference voltage source is introduced , two comparison blocks, an adder, a variable and constant component extraction unit, a scale converter, a multiplier, the first input of the adder being connected n with an AC voltage source through the first comparison unit, the second adder input is connected to a DC voltage source, and the output is with the input of an operational amplifier, the output of which is connected to the inputs of two-threshold comparators, respectively, through the unit for isolating the variable component and the unit for isolating the DC component 5, and the output of the constant component extraction unit is connected to one of the inputs of the comparison unit, the other input of which is connected to the output of the constant reference voltage source, the output of the neniya through scale converter. connected to one of the inputs of the extension unit β, the other input of which is connected to the output of the source of alternating reference voltage.

The drawing shows a functional electrical diagram. 20

The circuit contains an operational amplifier 1 with a controlled element (Su, Ry), a reference element (Rg, C _e ), a source of alternating reference voltage 2 and a constant reference voltage 25 P £ 3, block A comparison, adder 5, block allocation of the variable component 6 and a constant component * 7> two-threshold comparators 8 and 9, a comparison unit 10, a scale converter ₃₀ and a multiplication unit 12.

The device operates as follows.

To the input of the operational amplifier 1, the voltage of the sources of AC 2 and DC voltage 3 is supplied through the adder 5. The transmission coefficient of the operational amplifier 1 is the output at the output of the operational amplifier 1. To compensate for this change, it is necessary to introduce correction 6, the level of the AC voltage at the input of the device, for which between the source 2 of the AC reference voltage and the adder 5 includes a comparison unit k, where the reference level from the source of the AC reference voltage is compared with a signal of the same often you coming from block 12 of multiplication in antiphase. The control signal of the multiplication unit 12 is a constant voltage generated in the comparison unit 10 and converted to the required value using the scale converter 11. The transfer coefficient of the scale converter with the equality of the numerical values of the voltage of the sources of the reference variable 2 and constant 3 voltages is determined as follows.

DC voltage transfer coefficient _to ___! * _

Alternating voltage transmission coefficient '7-cx R K Ψ Z s x K9 · ZeX * T-cc

The block transfer coefficient multiplying the constant voltage is equal to the ratio of the resistors R ^ and R ^ нiya

The constant component of the signal, selected by the constant component extraction unit 7, is controlled by a two-threshold resistance comparator 9, which determines the tolerance of the resistor ^. In addition, the constant component of the signal is supplied to the comparison unit 10, where it is compared with a constant voltage from a source 3 of a constant reference voltage. The magnitude and sign; of the signal after the comparison unit 10 corresponds to the real ratio of the resistors R * and R ^ .. Changing U * from the nominal value leads to the corresponding change in the alternating voltage When the calculated value for K _M CI is met, the condition of the numerical equality of the voltage of the sources of the reference ^43rd variable and constant voltage 2 and 3, the transmission coefficient of the multiplication block K = 1.

The device has the advantage of allowing one ⁵⁰ effective tolerance control of RC circuits under conditions of galvanic interconnection, and information from the tolerance of each of them is invariant to the actual value of their nominal value of ⁵⁵ la within the limits corresponding to the conditions * of such control, which is especially effective in mass production.

Claims (2)

the adder is connected to a voltage source, and the output is connected to the input of the operational amplifier, the output of which is connected to the two-threshold comparators through the allocation unit of the variable component and the allocation unit of the constant component, respectively the component is connected to one of the inputs of the comparison unit, the other input of which is connected to the output of a constant voltage source, the output of the comparison unit is connected to one of the inputs of the block via a scale converter The multiplication, the other input of which is connected to the output of the source of reference support voltage. The drawing shows a functional electrical circuit. The circuit contains an operational amplifier 1 with a controlled element (Su, Ri) (), a reference element (Rg, Cg) a source of variable reference voltage 2 and a constant reference voltage 3, a comparison unit, an adder 5, an allocation unit of variable component 6 and a constant 7 two-threshold comparators 8 and 9, a comparison unit 10, a scale converter 11 and a multiplication unit 12. The device works as follows. The input of the operational amplifier 1 through the adder 5 is supplied with voltage sources of variable 2 and constant voltage 3. The transmission coefficient of the operational amplifier 1 is equal to the ratio of resistors R and R at a constant voltage. -J: A × Rg The constant component of the signal extracted by the constant-selection block 7 is controlled by a two-threshold resistance comparator 9, which determines the tolerance of the resistor: R. In addition, a constant signal component is supplied to a comparison unit 10, where it is compared with a constant voltage from a constant reference source 3. The magnitude and sign; the signal after the comparison block 10 corresponds to the real ratio of resistors I and R. From U, the nominal value leads to a corresponding change in the alternating voltage at the output of the operational amplifier 1. To compensate for this change. the level of the alternating voltage at the input of the device, for which between the source 2 of the variable reference voltage and the adder 5 a comparison unit is turned on, where the reference level from the source of the alternating reference voltage is compared with the signal scrap of the same frequency, coming from the block 12 multiplied in antiphase. The control signal of the multiplication unit 12 is the constant voltage formed in the comparison unit 10 and converted to the required value using the scale converter 11. The transfer ratio of the scale converter when the numerical values of the voltages of the sources of the reference variable 2 are equal and the constant 3 voltages is determined in the following way. Constant Voltage Transmission Ratio Transmit Variable Voltage Voltage h -T-cf RX h-Z .E 1c gsh Block Transmission Factor Multiply When the calculated value for K, CI condition the numerical equality of the voltages of the reference alternating voltage sources and constant voltages 2 and 3, the transmission coefficient of the multiplier unit is K1. C. 1. The device has the advantage of allowing operative tolerance control of RC circuits under the conditions of their galvanic interconnection, and information with tolerance dogo are invariant their actual value within Nominal la, .otvechayuschih conditions such control is particularly effective under conditions of mass production. Apparatus of the Invention A device for the tolerant counterframe of a capacitor and a resistance, containing an operational amplifier, in a negative feedback circuit of which a controllable element is included, and at the input a reference element, a source, a constant reference voltage, and two comparators, in order to improve the measurement accuracy, a variable reference voltage source, two comparison blocks, an adder, a variable selection unit and a constant component, a large-scale converter b, a multiplier, the first input of the adder is connected to the alternating voltage source via the first comparison unit, the second input of the adder is connected to the constant voltage source, and the output to the operational input {1 connector, whose output through the variable division component and a DC allocation unit are connected respectively to the inputs of the two-threshold comparators, and the output of the DC allocation unit is connected to one of the inputs of the comparison unit, the other input of which is connected to the output of the source A constant reference voltage, the output of the comparison unit is connected via a scale converter to one of the inputs of the multiplication unit, the other input of which is connected to the output of the variable reference voltage source. Sources of information taken into account during the examination 1. USSR certificate of authorship If 308387, cl. G 01 R 27/00, 1970. 2. USSR author's certificate No. 1 90961, cl. G 01 R 07/00, 1973 (prototype).