SU892350A1 - Converter of capacitor capacity value to code - Google Patents

Description

(H) CONVERTER VALUE CAPACITY CAPACITOR TO CODE

The invention relates to a measurement technique, in particular to electronic devices. Measuring the capacitance of a capacitor, and can be applied in various automatic measuring instruments.

A device is known for converting a capacitor capacitance value into a direct current voltage containing two synchronous switches, between the changeover contacts of which the measured capacitor is connected, their first fixed contacts are connected to the inputs of a differential voltage follower and the second fixed contacts modulating voltage discharging a switch connected in parallel with a reference capacitor, one output of which is connected to a non-inverting input, repeat l voltage and the other connected to the zero bus power source Dl

A disadvantage of the known device is the low conversion accuracy due to the presence of a bias voltage and bias current in a differential repeater.

The closest technical solution of the invention is a device for converting a capacitor capacitance value into a DC voltage, containing two synchronous switches, between the flip contacts of which a measured capacitor connected in series with the disconnecting key is connected, their first fixed contacts are connected

Claims (2)

15 with inputs of a differential voltage follower, and the second fixed contacts are connected to the outputs of the source voltage supply unit, discharging the switch in parallel connected to the sample capacitor, one output of which is connected to the sample capacitor, one output of which is connected to the noninverting repeater voltage, and the other is connected to the zero bus power supply, a differential amplifier, one of whose inputs is connected to the output of a voltage follower, and the other to the memory Ator, a second terminal coupled to a zero power source bus and key included between the inputs of the differential amplifier device 22 drawback is the low accuracy of measurement. The purpose of the invention is to improve the accuracy of the conversion. The goal is achieved by the fact that in the converter of the capacitor capacitance value into a code containing a source of direct voltage, two operational amplifiers, a switch, the first fixed output of which is connected to the first input of one of the operational amplifiers, and to one of the plates of an exemplary capacitor, parallel to which the key is connected, the movable output of the switch is connected to one of the terminals for connecting the measured capacitor, another terminal for connecting the measured capacitor, one of the outputs of the source a constant voltage input, a second input of one operational amplifier and one of the inputs of the analog-digital converter are connected to a common bus, and the output of the analog-digital converter is connected to a computing unit, two breakers are inserted, and the output of the constant voltage source is the first disconnecting key is connected with the input of another opamp and with one of the outputs of the second disconnecting key, the output of which is connected to the common bus, and the output of the other operational amplifier is connected to the second fixed the output of the switch, while the other plate of the reference capacitor is connected to the output of one operating force of the body and to another input of the analog-to-digital converter. The drawing shows a functional electrical circuit of the converter. The drawing shows the functional electrical circuit of the converter. The converter contains a source of 1 constant voltage, operational amplifiers 2 and 3, opening 04 switches and 5 switch 6, measuring capacitor (Cx) 7, switch 8, reference capacitor (Co), analog-to-digital converter 10, computing unit 11, control unit 12. The capacitance measurement process consists of four cycles. First, the opening switch and key 8 are closed. The measured capacitor (Cx) 7 is connected to the output of the operational amplifier 2 and acquires a charge (2o cc-K-EQ, where E is the voltage of the constant voltage source; K is the gain of the operational amplifier 2. Exemplary capacitor (Co) 9 is completely discharged. During the second cycle, switch 6 connects the measured capacitor (Dx) 7 to the input of the second operational amplifier 3. As a result, the measured capacitor (Dx) 7 is discharged to the bias voltage of the operational amplifier 3 E (, and The reference capacitor (Co) 9 acquires the charge Q CK K.EO- C where D1 is the duration of the second cycle} I.CfA displacement current of the operational amplifier 3. The voltage at the output of the operational amplifier 3 will be: P Dx 4.E, CQ o Co F (-i) Wco This voltage value is converted by analog-digital converter 10 to code N and written to the memory of computing unit 11. During the third cycle, the opening key 5 and key 8 are closed, variable capacitor (Dx) 7 connected to the output of the operational amplifier 2. As a result, the measured and exemplary condensation Orae 7 and 9 are discharged completely. During the fourth cycle, the measured capacitor Cx 7 is connected to the input of the operational amplifier 3. If the duration of this cycle is equal to the duration of the second cycle, q t, then the output voltage of the operational amplifier at the end of the cycle is 5. IQM, (1 -) -ym cm Co Co The value is that the voltage is converted by the analog-digital converter 10 to the N code and is recorded in the memory of the computing unit 11.. The voltage difference Ugj ,, y is: ЕО NN -II-out The sign of the capacitance (Cx) of the measured capacitor 7 calculates the calculating block 11 by the algorithm: P ,, N -N Cx Co V .. Inventory value converter a capacitor to a code containing a source of direct voltage, two operational amplifiers, a switch, the first fixed output of which is connected to the first input of one of the operational amplifiers, and one of the plates of the model capacitor in parallel with which the switch is connected, the movable output of the switch connected to one of the terminals for connecting the measured capacitor, another 0 for connecting the measured capacitor, one of the outputs of the constant voltage source, the second input of one operational amplifier and one of the inputs of the analog-digital converter are connected to the common bus, and the output of the analog A digital converter is connected to a computing unit, characterized in that, in order to increase the conversion accuracy, two disconnecting keys are inserted into it, the output of the constant voltage source through the first disconnecting switch The key is connected to the input of another operational amplifier, and to one of the outputs of the second disconnecting key, the other output of which is connected to the common bus, and the output of the other operational amplifier is connected to the second fixed output of the switch, while the other lining of the reference capacitor is connected to the output of one operating force - bodies and with one input of analog-to-digital converter. Sources of information taken into account in the examination 1. Japanese Patent No. 53-38939, c. tic C Oh, 1978, (analog). 2. US patent N 3866 + 4 7, class, 321-60 DM, 1975 (prototype).