SU1536323A1 - Device for measuring parameters of elements of complex electric circuit - Google Patents

Abstract

The invention can be used in automated measurement systems for measuring the parameters of resistors, resistors and capacitors, resistors and inductances forming a complex electrical circuit. The purpose of the invention is to simplify the device. The device contains a block 1 of readout devices, a source of constant voltage 2, a voltage amplifier 3 and contactless switches 4,5. The goal is achieved by the proposed scheme for constructing a device with the introduction of a programmable voltage source 24 and processing blocks 12-14, each of which contains contactless switches 15.16, a comparison amplifier 18, an operational amplifier 19, a compensator 20, and a programmable measuring resistor 21. 2 silt

Description

3

AND

3:

The invention relates to instrumentation technology and can be used in automated measuring systems for measuring parameters of resistors, resistors and capacitors, resistors and inductances that form complex electrical circuits.

The purpose of the invention is to simplify the device.

Figure 1 shows the structural diagram of the device; FIG. 2 shows timing charts for the job.

devices that

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The device contains a unit 1 of reading devices, a source 2 of a constant-first voltage, an amplifier 3, the feedback input and the output of which through contactless switches 4 and 5 are connected to common point A of elements 6- 10 complex processing circuit 1-1, processing units 12, 13, and 14 (by the number of simultaneously measured parameters of circuit 11), each of which contains first and second contactless switches 15, 16 and processing unit 17, containing comparison amplifier 18, operational amplifier ( OA) 19, the compensator 20, made in the form of a composite transistor, and a programmable measuring resistor 21, while the non-inverting input of the op-amp 19 is connected to the common bus, and the inverting input is connected to the first output of the second contactless key 16 and the corresponding output of elements 6-10 of the circuit 11 via the first non-contact key 15 (the first outputs of the keys 16 in blocks 12, 13 and 14 are connected to points B, C, D, respectively), the input of the compensator 20 is connected to the second output of the second contactless switch 16, and the output to the first input of the comparison amplifier 18 directly and through a programmable measuring resistor 21 the second input of the comparison amplifier 18 and the potential input 22 of the unit 12, the output of the opamp 19 is connected to the control input of the compensator 20, the output of the comparison amplifier 18 is the output 23 of the processing unit 12 and connected to the corresponding input of the unit 1 of the reading devices connected to the output of a constant voltage source 2, the output is programmable0

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A second voltage source 24 is connected to the input of the amplifier 3 voltage.

The device works as follows.

The polarity of the output voltage of the source 24 is chosen opposite to the polarity of the output voltage of the source 2. At the initial time t0, according to commands from a software device (PU), the value of the output voltage of the programmable source 24 is set; resistance value Rorp, limiting the load current of amplifier 3; resistance value of resistors 21 R2 (in processing units. At the same time, blocks 12, 13 and 14 and amplifier 3 are connected to circuit 11.

At time t, on command from the PU, the source 24 is turned on at the time specified in the PU from the ratio - 10Rorp-C Cx - the maximum expected value of the capacitance. The point A of the circuit 11 is applied to the voltage from the output of the amplifier 3, the current flow path being formed by chains, each of which contains elements whose parameters are measured (in the first circuit - element 6, in the second - 7 and 8, in the third - 9 and 10), a closed key 16, a compensator 20, a measuring resistor 21, a source 2, a common bus, a source 24, an amplifier 3. At the same time, resistors 21 in blocks 12, 13 and 14 are separated by voltages proportional to the currents flowing through elements 6, 7; 8 and 9; 10 respectively. This is ensured, firstly, due to the fact that the collector current of the compensator 20 is almost equal to the emitter current due to the large gain, and secondly, due to the properties of the OU 19, providing a voltage close to zero at points B, C and D (virtual zero), and electrical isolation of elements 6, 7; 8, 9; ten; thirdly, by switching on the contactless K-16s in series with the compensators 20, which makes it possible to compensate for the error introduced by the keys 16. The amplifier 19, the keys 15, 16 and the compensator 20 form an automatic adjustment circuit supporting at point B (C, D) potential close to zero. When changing the resistance of the key 16, the total resistance

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and R,

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key and compensator, respectively) is changed by changing the potential at point B, and a voltage appears at the inputs of op-amp 19, which, amplifying op-amp 19, enters the input of the compensator, changing its resistance in such a way that at point b potential close to zero is maintained. Through the time delay t "; Necessary to establish a zero potential at points B, C, D, according to commands from the control unit, unit 1 of reading devices reads the values of voltages from the outputs 23 of units 12-14 and stores them (IEAI). After time At, specified by the PU, unit 1 reads and remembers the voltage values from the outputs of the 23 blocks 12-14 (em2) for the second time. At time t4, on command from the control unit, the third reading and storing by the block 1 of voltages from the outputs of 23 blocks 12–14 (igm) occurs.

At time t-j, the source 24 switches off the source 24, in the time interval tj - -C the amplifier 3 and blocks 12-14 are disconnected from the circuit 11, the values of voltages and igms; are read from block 1 to the PU, where the measurement results are calculated using the formulas:

At

U,

R, In iMi.- kogr 1P p

P iizmg

R,

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In the moment . the device is ready for further work.

Claims (1)

Invention Formula Device for measuring the parameters of elements of complex electrical h 0 50 five 0 a circuit containing a constant voltage source, a voltage amplifier, a feedback input and the output of which through contactless switches are connected to a terminal for connecting a complex electrical circuit under study, processing units by the number of simultaneously measured parameters, a block of readout devices whose inputs are connected to respective outputs of processing units, each of which contains a comparison amplifier, two contactless switches and an operational amplifier, the non-inverting input of which is connected to the common bus and inverting The input through the first contactless switch is connected to the first output of the second contactless switch and to the corresponding terminal for connecting the terminals of the complex electric circuit under study, characterized in that, in order to simplify the device, a programmable voltage source is inserted into it, and each processing unit is programmed measuring resistor and compensator, while the output of the programmable voltage source is connected to the input of the voltage amplifier, the output of the constant voltage source is connected to the inputs processing loops, in each of which the compensator input is connected to the second output of the second contactless switch, the output to the first input of the comparison amplifier directly and via a programmable measuring resistor to the second input of the comparison amplifier and the input of the processing unit; the control input of the compensator is connected to the output of the operational amplifier .