SU1107234A1 - A.c. voltage-to-a.c. voltage converter for testing installations - Google Patents

Abstract

VARIABLE VOLTAGE VARIABLE FOR TESTING INSTALLATIONS, containing a ballast sectioned resistance, to the terminals of the sections of which are connected one-way control keys and a control unit; the leads of the ballast sections, the cathodes of the keys associated with the even terminals of the ballast sections, are combined and connected to the extreme leads of the ballast The resistance and the outputs of the control unit are connected to the control transition terminals of the respective keys, characterized in that, in order to simplify the control unit, the cathodes of all the keys associated with the odd outputs of the ballast sections are combined and connected to another edge (Le ballast resistance,.

Description

The invention relates to electrical engineering and can be used to control alternating voltage in cases where high demands are placed on the sinusoidal shape of the output voltage. A known alternating voltage to alternating voltage converter for test setups containing ballast resistance, sections of which are shunted by the contacts of the switches. The desiccants of this device are low speed and the presence of SLAVE contacts. The variable-to-variable-to-variable converter for test setups, containing a ballast partitioned resistance, to the terminals of the sections of which the controlled keys and a control unit are connected, is also weighed, while the keys associated with the even-numbered terminals of the ballast sections are counter-connected to the keys connected to the odd leads of the ballast sections, the cathodes of the keys associated with the even leads of the ballast sections are combined and connected to the extreme leads of the ballast with The control module outputs are connected to the control transition terminals of the corresponding keys. 2-2 A disadvantage of the known device is the complexity of the control unit, since the cathodes of all odd keys have different potentials when the device is operated, which requires the output stages of the control unit to be galvanically isolated for all odd keys . The purpose of the invention is to simplify the control unit by performing output control stages of odd keys without galvanic isolation. This goal is achieved in that the AC-to-AC converter for test setpoints, containing the ballast sectioned resistance, to the terminals of the sections of which are connected unipolar controlled keys and a control unit, the keys associated with the even-numbered outputs of the ballast sections, are included opposite keys connected to the odd leads of the ballast sections, the cathodes of the keys connected to the even leads of the ballast sections are combined and connected to they are connected by a ballast resistance, and the outputs of the control unit are connected to the control transition terminals of the respective keys, the cathodes of all the keys associated with the odd leads of the ballast sections, are combined and connected to another extreme ballast resistance terminal. On .ch-rtezhe the scheme of the offered device is represented. The converter contains a partitioned ballast resistance 1, connected between the device input and output terminals, even 2.4, 6 and odd 3,5,7 unidirectional controllable keys (thyristors) connected by anodes to the leads of the ballast sections. The cathodes of all odd thyristors are connected together and connected to the output terminal of the ballast resistance, and the cathodes of all even thyristors are connected to the input terminal of the ballast resistance 1, the control inputs of the thyristors are connected to the output of the control unit 8. The device works as follows. After switching on the device, the control unit 8 sends control pulses alternately to even and odd thyristors in a sequence, 2-3-4-5-6-7, with each of the half-periods increasing most of the ballast resistance 1, the output voltage of the device smoothly increases from sub-period to half-period, Zoka will not reach the maximum value of -1, after which the thyristors are turned on. By combining odd thyristors at one point of the cathodes, the control unit is simplified, since there is no need for galvanic isolation of control signals by odd thyristors.

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Claims (1)

AC VOLTAGE CONVERTER TO VARIABLE FOR TEST INSTALLATIONS, containing ballast sectioned resistance, to the terminals of sections of which are connected unipolar controlled keys and a control unit, while the keys associated with the even outputs of the sections of ballast resistance are counted against the keys connected with odd sections of the ballast resistance , the cathodes of the keys associated with the even terminals of the sections of the ballast resistance are combined and connected to the extreme terminals of the ballast ivleniya and outputs connected to the control unit outputs a control transitions corresponding key, characterized in that, in order to simplify the control unit, the cathodes zseh keys associated with odd pin ballast sections, § combined and connected with another terminal extreme ballast .. SU „..1107234> i