SU1379753A1 - Device for checking power supply sources - Google Patents

Abstract

This invention relates to a measurement technique and serves to expand the functionality of a device. The device contains a block of 1 auxiliary voltage sources, a block 2 specifying the supply voltage, blocks 3 and 4 of display and identification, blocks 5 and 6 of setting the program and programmable loads, blocks 9 and 12 of control and interface and measuring block 10. Introduction of a multiplier 7, generator B, its specific implementation, as well as the formation of new functional connections, makes it possible to control the power sources in which protection against overcurrent is performed by comparing the voltage drop to the measurement ritelnom resistor included in the load circuit with the fixed value voltage, being part of the input. 1 hp f-ly, 2 ill. (L

Description

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The invention relates to electrical measuring equipment and can be used to create systems for monitoring the parameters of power supplies of electronic equipment. The purpose of the invention is to expand the functionality of the device due to the possibility of controlling the power supply source, in which overcurrent protection is performed by comparing the voltage drop across the measuring resistor included in the load circuit with a fixed amount of output voltage.

FIG. 1 shows a block diagram of the device according to the invention; FIG. figure 2 - diagram shaper (multiplier).

The device contains a block of 1 auxiliary voltage sources, a block 2 specifying the magnitude of the supply voltage, a block 3 of the display, a block 4 of identification, a block 5 of setting the program, a block 6 of programming p, D loads, a multiplier 7, a driver 8 (analog multiplier), a block 9 control, measuring unit 10, terminals 11 for connecting the input and output of the source to be tested, interface unit 12.

The output of the auxiliary source unit 1 is connected to the first inputs of the unit 2, specifying the supply voltage, the display unit 3, the identification unit 4, the program setting unit 5, the programmable block 6, the multiplier 7, the driver 8. The second input of the unit 2 specifies the power supply 11p1x the voltage is connected to the second output of the control unit 9, and the third input is connected to the output of the identification block 4 and the third input of the display unit 3, and the output to the output adhesive 11 to connect the input of the source to be tested and the second input of the block 10. A third input of the display unit 3 is coupled to the first output of the control unit 9, a third output connected to the second input unit 4 identifika1.Ts1i fourth output to a second input of multiplier 7, the control unit 9 first input connected to the output specifying unit 5

program, the second input to the output of the measuring unit 10, the first input of which is connected to the second input of the block 6 of programmed loads.

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the first output of which is connected to the first input of the mating unit 12, and the second input - to the output of multiplier 7, the third input of which is connected to the output of the imaging unit 8, the second input of which is connected to the second output of the mating 12, the first output of which is connected to the third input of the identification block 4, and the second input with the output terminal 11 for connecting the tested source.

The imaging unit 8 (Fig. 2) contains a current stabilizer 13, a voltage regulator 14, a threshold element 15, a controllable resistance 16 and a switch 17.

The first input of the driver 8 is connected to the input of the current stabilizer 13, the output of which is connected to the driver of the driver 8, the input of the voltage regulator 14, the output of the controlled resistance 16 and the input of the threshold element 15. The second output of the voltage stabilizer 14 is connected to the driver housing. The output of the element 15 is connected to the control input of the key 17, the input of which is connected to the second input of the driver 8, and the output to the control input of the controlled resistance 16. The second output of the controlled resistance 16 is connected to the body of the driver 8.

The device works as follows

The auxiliary source unit 1 provides the auxiliary voltage for the 2-6 units, the multiplier 7 and the driver 8. The 2-task unit. The values of the supply voltage according to the signals from the identification unit 4 and the control unit 9 are supplied to terminal 11 for connecting the source to be tested and to the first input of the measuring unit 10 of the AC voltage for the type of source being tested. The type of source to be tested is determined by the signals from the first output of the interface 12, arriving at the third input of the identification block. The output voltage of the source under test is supplied through the input terminals 11 of the device to the interface unit 12, which is individual for each type of source under test. The programmable load unit 6 provides the specified loading mode of the source under test and is connected to the output of the source under test through the first input of the interface unit 12. The part of the source voltage of the source under test through the buffer resistor of the interface unit 12 and its second output goes to the second input of the driver 8 (multiplier), which generates a voltage at the output that varies from zero to a predetermined value in the process of changing the voltage from the test source, the voltage from the output of the imaging unit 8 is fed to the third input of the multiplier 7, the second input of which receives the signal of the scale factor from the fourth output of the control unit. The scale factor determines the output voltage of the multiplier 7, which depends on the type of source being tested. The output voltage of the multiplier 7 is fed to the second input of the block 6 of programmable loads, which provides the loading current depending on the voltage variation of the source being tested. The measurement results of the input and output voltages of the tested source are recorded on the measuring unit 10.

The shaper 8 operates as follows.

At the first input it receives the voltage from the unit 1 auxiliary voltage sources. Current stabilizer 13 provides a constant current through controlled resistor 16, which is controlled from the second driver input through the key 17 in the initial position. With zero voltage at the second input of the driver, the resistance 16 is low and the output voltage of the driver 8 is close to zero. As the voltage at the control input of the controlled resistance 16 increases, its resistance increases and the output voltage of the driver also increases until the trigger threshold element 15 is turned on, which turns off the switch 17. The output voltage of the driver 8 then increases to the value determined by the stabilizer 14 tension Opening the key 17 prevents a change in the output voltage of the driver 8 when the voltage of the source being tested is lowered during its further checks.

Further verification of the power supply 11 (change of the input

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the supply voltage, the change (1) the load current, etc.) is carried out in accordance with the program read by the control unit 9 from the program setting unit 5. The results of nponc jiki are recorded with the help of a meter, a block and a display unit 3.

Claims (2)

Invention Formula 1 A device for checking power sources, containing a block of auxiliary voltage sources, the output of which is connected to the first inputs of a programmable load unit, a unit for setting the value of supply voltages, a display unit of an identification unit and a program setting unit whose output is connected to the first input of a control unit, first the output of which is connected to the second input of the display unit, the second output to the second input of the unit specifying the supply voltage, the third output to the second input of the identification block, t This input is connected to the first output of the interface unit, and the output is connected to the third inputs of the display unit and the unit for setting the supply voltage, the output of which is connected to the terminals for connecting the input of the source to be tested and the first input of the measuring unit, the output of which is connected to the second input the control unit, and the second input - with the first output of the programmable loads unit, the second output of which is connected to the first input of the interface unit, the second input of which is connected to the terminal block for connecting the output checked A source, characterized in that, in order to expand its functionality, a multiplier and a driver are inserted in it, the first input of the multiplier is connected to the first input of the unit for setting the supply voltage, the second input is with the fourth output of the control unit, the output is to the second input of the unit programmable loads, and the third input - with the output of the imaging unit, the first input of which is connected to the first input of the setpoint unit, supplying power, and x voltages, the second input - to the second output of the interface unit. 2. A device according to claim 1, characterized in that the driver contains a current regulator, a voltage regulator, a controlled resistance, a threshold element and a switch, the input of the current regulator connected to the first input of the unit, and the output to the output of the unit and input voltage regulator, the first output of the controlled resistance and the input of the threshold element, the output of which is connected to the control input of the key, the input of which is connected to the second input of the unit, and the output to the control input of the controlled resistance, the second output of which The output of the voltage regulator is connected to the total length. FIG. 2