SU941912A1 - Device for measuring linear integrated voltage stabilizer parameters - Google Patents

Description

one

The invention relates to a measuring technique, namely, devices for automatically measuring the electrical parameters of integrated voltage regulators at the operating and output control of their production.

Devices are known for measuring the parameters of an integrated voltage regulator, comprising a power supply source, a load unit and an output voltage regulator of a test stabilizer, for which a mechanically driven potentiometer is used.

The disadvantages of the known device are the limited service life and low speed, due to the correspondingly low wear resistance of the potentiometers and the inertia of the mechanical drive.

Closest to the proposed technical solution is a device containing a block of tasks

mode connected to the input and you-. the stroke of the stabilizer under test, a regulator connected between the output and the regulator input of the stabilizer, and a measuring unit connected to its output. In addition, a functional generator, a key and a storage unit are included in the device. However, the known device of the region, Q, provides a low measurement accuracy for some parameters of stabilizers, such as static instabilities, due to limited time, storing the voltage in the memory

, 5 block and the resulting change in the state of the regulator, and from it the output voltage of the stabilizer under test.

The purpose of the invention is to increase the languor of parameter measurements.

This goal is achieved in that a device for measuring parameters of linear integrated voltage stabilizers contains 39 mode setting units, the first and second outputs of which are connected respectively to the terminals for connecting the input and output of the voltage stabilizer under test, the terminal for connecting the output of which is connected to the input the measuring unit and one output of the regulator, the other output of which is connected to the terminal for connecting the regulating input of the voltage stabilizer under test, are entered A digital control and a comparator, with the output of the measuring unit connected in series to the comparator and the digital control unit connected to the control input of the controller, and the measuring unit contains the source of reference voltages, measuring divider, switch, analog-digital converter, digital processing unit the first output of the switch is connected to the serially connected digital processing unit and the analog-to-digital converter; the first input of the switch is connected to the input of the measuring unit and one output meter of measuring divider, the other output of which is connected to the output of the reference voltage source, and the middle output - to the second input of the switch, the second output of which is connected to the output of the measuring unit. The drawing shows the block diagram of the proposed device. The device contains a mode setting unit 1 consisting of a voltage source 2 and a current source 3, a stabilizer under test k, a digital control unit 5 consisting of a pulse generator 6 and a register 7 with the output code memorization, a comparator 8, an output controller 9 voltage, measuring box 10, consisting of measuring divider 11, voltage source 12, switch 13, analog-digital converter 1 and digital processing unit 15, terminals 16,17 and 18, respectively, for connecting the input, control input and output will be tested of stabilizer t. The process of measuring the electrical parameters of the test stabilizer consists of two stages. The first stage is preparatory and consists in setting the output voltage of the tested stabilizer C. The 4 reset of the register 7 in the digital control unit 5 is set, the mode of the tested stabilizer C is set by the block 1, the input of the comparator 8 is connected to the midpoint of the measuring divider 11 by the switch 13, to the inputs of which the output voltages of the tested stabilizer C and the source 12 are supplied, and the reference voltage of the source 12 is set equal to the output voltage, the stabilizer k, but opposite to Since, at the initial moment, the output voltage of the tested stabilizer 4 is not equal to the specified value, the voltage at the midpoint of the measuring divider 11 is different from zero and the comparator 8, which is a discriminator, zero, allows the pulses to pass from the generator 6 to the counting input register 7. As the pulses accumulate in register 7, the output signals from digital control unit 5 change the state of regulator E, which causes a change in the output voltage of the stabilizer. When the output voltage of the stabilizer k reaches the specified value, the voltage at the midpoint of the measuring divider 11 will be close to zero, because it will compensate for the reference voltage of source 12, and the comparator 8 will close the counting input of register 7. The output digital code of register 7 and its corresponding state the regulator 9 is fixed at the positions corresponding to the given output voltage of the stabilizer under test, and the parameters of the stabilizer for a given output voltage remain unchanged during the measurement time and. Since the state of the regulator 9 is established by the digital code from block 5, the stability of the output voltage of the stabilizer k depends only on the stability of the parameters of the regulator 9 during the measurement time, which can be reached sufficiently high. The second stage of the device operation consists in measuring the parameters (static instabilities of the stabilizer under test 4. At the same time, the input of the analog-digital conversion

The driver T is connected via a switch 13 to the output of the subject stabilizer t. The result of measuring the value of the output voltage is transmitted to the digital processing unit 15 and stored. After that, the input of the analog-to-digital converter through the switch 13 is connected to the midpoint of the measuring divider 14. The converter 1 measures the value of the undercompensation voltage and transmits the result to the digital processing unit 15, where it is also memorized

Then, the mode of the tested stabilizer is changed by block 1 and the measurement is repeated; The new value of the voltage of the undercompensation of the remote control at the midpoint of the measuring divider 11, which is also stored in block 15.

Using the recorded measurement result, the digital processing unit 13 calculates the static instability of the tested stabilizer using the formula

K .., ao

And displays the result on a digital display.

The synchronization of the operation of the units and units of the device is carried out according to the program from the digital control unit 5 or from the computer (for the ease of communication, the block diagram is not shown

Due to the introduction of a digital control unit to the regulator of the output voltage of the tested stabilizer and the construction of a measuring device, it is provided more. High ACCURACY parameter stabilizers compared with the known.

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Claims (2)

1. USSR author's certificate number 535528, cl. E 01 R 31/26, 1976. 2. USSR author's certificate N, cl. G 01 R 31/26, 1976 (prototype).