SU1636810A1 - Power supply testing device - Google Patents

Abstract

The invention relates to electrical measuring equipment and can be used to test secondary power sources of electronic computers. The aim of the invention is to increase the reliability of the device by eliminating the short circuit of the three-phase network of the control device during a short circuit of the control object inputs, as well as expanding the scope of application of the device due to the possibility of monitoring the output voltages of the control object. The device contains a control unit 1. block-2 program settings, block 3 of control of discrete adjustment of output voltage, block 4 of displaying information, block 5 of specifying the magnitude of the supply voltage, verifiable power supply 6, block 7 of programmable loads, measuring block 8, rectifier voltage 9, block 10 short-circuit protection, switching unit 11 and inputs 12 with corresponding connections. 2 hp ff, 3 ill. (L

Description

The invention relates to electrical engineering and can be used to test secondary power supplies of electronic computers.

The aim of the invention is to increase reliability by eliminating the short circuit of a three-phase network of the monitoring device during a short circuit of the inputs of the monitoring object, as well as expanding the scope due to the possibility of monitoring the output voltages of the monitoring object.

Figure 1 presents the structural electrical diagram of the device; figure 2 is a functional electrical circuit of the protection against short circuit; Fig. 3 is a functional electrical diagram of a control unit for discrete adjustment of the output voltage.

A device for checking power supplies comprises a control unit 1, a program setting unit 2, a discrete output voltage control unit 3, an information display unit 4, a supply voltage setting unit 5, a verified power supply 6, a programmable load unit 7, a measuring unit 8, a rectifier 9 voltage, block 10 protection against short circuit, block 11 switching, inputs 12 with corresponding connections.

Block 10 protection against short circuit contains relay 13 with contact groups

13.1 - 13.3, diode 14, a group of resistors 15 17, a resistor 18, an amplifier 19 and a transistor 20 with corresponding connections.

The control unit 3 for discrete adjustment of the output voltage contains resistors 21-23, a capacitor 24, a comparator 25, an AND element 26, an OR element 27. a single pulse generator 28, a pulse shaper 29, switches 30 and 31 with corresponding connections.

The device operates as follows.

The tested power supply 6 is connected to the programmable load unit 7, the supply voltage setting unit 5, the discrete output voltage control unit 3 and the voltage rectifier 9. In the switching unit 11, the unit inputs are connected to the first group of unit outputs (the second group of unit outputs is disconnected from the inputs block). Inputs 12 are supplied with an alternating primary voltage. The supply voltage to the tested power supply 6 is not supplied until the control unit 1 is turned on. When the control unit 1 is turned on, the alternating primary voltage from the inputs 12 passes through the control unit 1, the switching unit 11. The switching unit, the short-circuit protection unit 10, the unit 5 for setting the supply voltage value, and is supplied to the input inputs for the variable network of the checked power source. In the block 10 of protection against short circuits, the alternating primary voltage passes through the resistors 15 17, providing protection for the circuits for setting the primary alternating voltage in the device and in the tested power supply in case of failure in the event of a possible short circuit. After setting the variable network to the inputs of the checked power supply, the control unit 1 starts the program task unit 2.

The latter controls the software operation of the short circuit protection unit 10, the unit 5 for setting the value of the supply voltage, the unit 7 for programmable loads and the unit 3 for controlling the discrete adjustment of the output voltage,

Upon receipt of a program job from block 2 of the short circuit protection block 10, the sign of serviceability of the alternating circuits is activated by relay 13. It closes the contact groups 13.1 - 13.3, while supplying an alternating voltage of nominal value to the tested source 6, further checking the power source 6 ( a change in the magnitude of the input supply voltage and a change in the magnitude of the load current) is carried out in accordance with the program read by block 5 and block 7 from block 2.

The control of the discrete adjustment of the output voltage of the checked power source 6 begins with the receipt from the block 2 of the control unit 3 of the discrete adjustment of the output voltage of the clock pulses. Block 3 using the switch 31 and the shaper 29 generates a control pulse at the second output of the block, by which the source 6 determines the beginning of the direction of adjustment of the output voltage. A switch 30, a single pulse generator 28, a comparator 25, an AND element 26, an OR element 27 at the first output of block 3 can generate both single and group pulses, according to which for each pulse the checked power source 6 changes its output voltage by a predetermined discrete value in ranges from maximum to minimum output voltage.

The device allows you to switch the inputs to the second group of outputs in block 11 to remove the alternating voltage from the inputs of the source 6 and turn on the rectifier 9 voltage, as a result of which the rectified voltage is applied to the inputs of the constant network of the tested power source 6. The device provides an alternating or direct voltage supply to the tested source.

The verification results are recorded using block 8 and block 4 display.

When you turn off the control unit 1, the device returns to the position in which only at the input 12 there is an alternating voltage.

Claims (3)

Claim 1. A device for monitoring power supplies, comprising a control unit, series-connected program setting unit, supply voltage setting unit, voltage rectifier, information display unit, measuring unit, programmable load unit, input buses of which are connected to terminals, for connecting the monitoring object, and the output - with the input of the measuring unit, the group of inputs of which is connected to the terminals for connecting the control object and the group of outputs of the unit for setting the value of the supply voltage, whose inputs and control inputs of the programmable load unit are connected to the output of the program unit, the control inputs of which are connected to the first group of outputs of the control unit, the input of which is connected to the control input of the device, the input of the information display unit is connected to the output of the control unit, the outputs of the voltage rectifier are connected to terminals for connecting the control object, characterized in that, in order to increase the reliability of the device and expand the scope of application, a switching block is introduced into it , a short-circuit protection unit and a control unit for discrete adjustment of the output voltage, the control input of which is connected to the control outputs of the program task unit, and the outputs are connected to the terminals for connecting the control object, the second group of outputs of the control unit is connected to the inputs of the switching unit, the first output of which is connected with the input of the voltage rectifier, and the second with the input of the unit behind the short circuit boards, the control input of which is connected to the output of the program unit, and the output is with the input a reference value of the supply voltage. 2. Device pop. 1, characterized in that the short-circuit protection unit contains a relay, a diode, a transistor, first to fourth resistors, first and second power buses, the first power bus connected to the first output of the relay winding, the second output of which the diode is connected to the first terminal of the relay winding and to the collector terminal of the transistor, the emitter terminal of which is connected to a common bus, and the base terminal is connected through the first resistor to the second power bus and the amplifier output, the input of which is connected to the control input of the unit, the first, second, and t The third inputs of the block are connected, respectively, with the first contact group and the second resistor connected in parallel, with the second contact group and the third resistor, with the third contact group and the fourth resistor, which are also connected respectively with the first, second and third outputs of the block. 3. The device according to claim 1, characterized in that. that the control unit for discrete adjustment of the output voltage contains a comparator, an AND element, an OR element, a single pulse generator, a pulse shaper, first and second switches, first, second and third resistors, a capacitor, a power bus that is connected through the first and second resistors to the first and to the second inputs of the comparator, respectively, the first input of the comparator is connected through a third resistor to a common bus of the device, which is connected through a capacitor to the second input of the comparator, the output of which is connected to the input of the And element, the second input of which is connected to the first input of the pulse shaper and the control input of the unit, the first switch is connected with the first contact to the device common bus, and the second contact with the second input of the pulse shaper, the output of which is connected to the first output of the device, the second output of which connected to the output of the OR element, the first input of which is connected to the output of the And element, and its second input is connected to the output of the single pulse generator, whose input is connected through the first contact of the second switch with the second input of the comparator, a common bus device coupled to the second terminal of the second switch. FIG. 3