SU911490A2 - Ferroresonance ac voltage stabilizer - Google Patents

Description

(5) Ferroresonant Variable Stabilizer

Claims (3)

one The invention relates to electrical engineering and can be used for powering various electronic equipment. According to the main auth.N. 733776, an alternating voltage ferroresonant voltage stabilizer is known, containing a linear choke with a compensation winding connected between the first input terminal and the resonant current circuit consisting of a capacitor and the main winding of the filter throttles, one of the terminals of the additional winding of which is connected to the first output terminal, and the compensation winding of the linear throttle is connected by one output to the junction point of the linear throttle and autotransformer, and the other to the second output, and The additional winding of the filter throttles is additionally equipped with a tap connected to the resonant current circuit, and the other end of the additional winding of the filter throttle is connected to the VOLTAGE The second input terminal, the stabilizer, is additionally equipped with a switch controlled depending on changes in the load current, the input terminals of which are connected to the tapes of the autotransformer, and the output terminal is connected to the capacitor circuit and the main winding of the throttle filter. The disadvantage is the complexity of the windings of the autotransformer. The aim of the invention is to provide protection of the stabilizer against overload when the maximum allowable input voltage is exceeded. This goal is achieved by the fact that, in a known stabilizer, the switch is designed as a voltage relay, the winding of which is included in the autotransformer circuit of the resonant current loop. To extend the operating range of the loads, the relay coil is sequentially connected to the resonant current loop by an additional relay coil 39, the opening contacts of which are connected between the make contact of the first relay and the first tap of the autotransformer. To ensure reliability in the post-operation relay, parallel additional winding contacts are connected to the additional relay. first relay. The drawing shows the circuit diagram of the device. The Ferroresonant AC voltage regulator has 8АДЫ 1 and 2 input terminals connected to an AC source, the voltage of which can vary widely, output terminals 3 and for connecting a load whose power can vary in the wide range from nominal to minimal signs. Line choke 5 is switched on successively with an oscillating circuit consisting of an autotransformer b, droplets of the filter 7 and a capacitor 8. The taps 9 and 10 of the autotransformer 6 are connected to the input terminals of the switch, the output contact of which is connected to the capacitor 8 and the droplets of the filter 7 In the proposed device, relay 11, which plays the role of a switch, is connected by its winding into the circuit of the autotransformer of the resonant current loop. The opening contacts 12 of the relay 11 connect the beginning of the winding of the autotransformer 6 to the capacitor circuit 8 and throttle 7. The closing contact 13 of the relay 11 is connected to the first tap 9 of the autotransformer 6 through the breaking contacts AND relay 15 ,. the winding of which is bridged by additional contacts 16 of relay 11 and is connected in series with its winding into the resonant current loop. The closing contact 17 of the relay 15 is connected to the second tap 10 of the autotransformer 6. When the stabilizer is operating at a nominal load in the working range of the input voltages, the current of the resonant parallel circuit does not exceed the value of the relay operation current. A decrease in the load power or an increase in the input voltage above the maximum allowed causes the current to rise to the magnitude of the relay 11 to operate, contacts 12 of which switch the capacitor 8 from the beginning of the winding of the autotransformer 6 to its first drain 9. The current in the circuit abruptly decreases, but not lower than the holding current relay 11. With a further decrease in load, the loop current increases to the magnitude of the response current of the additional relay 15, contacts 14 of which will switch the capacitor 8 to the second tap 10 of the autotransformer 6 and reduce the urny current. Shunting the winding of the relay 15-opening contacts 16 of the relay 11 eliminates the error in the operation of the relay, i.e. relay 15 does not work when relay 11 is disconnected. An increase in the load and a decrease in the input voltage causes the autotransformer to deactivate, the loop current in the autotransformer circuit drops sharply to the current of the relay 11 and 15, the contacts 12 connect the beginning of the winding of the autotransformer 6 to the capacitor. The device provides the following advantages in comparison with the existing ones: automatic maintenance of the optimal mode of stabilization of alternating voltage when the load power and input voltage change nor providing protection against overloads when the input voltage is exceeded from the maximum allowed by 10 Formula of the invention 1. A supercresonant alternating voltage stabilizer according to the author. St. No. 783776, characterized in that, in order to protect against overload when the maximum allowable input voltage is exceeded, the switch is designed as a voltage relay, the latter winding being connected to the autotransformer circuit of the resonant current loop. 2. A stabilizer according to claim 1, characterized in that a relay coil is connected in sequence to the resonant current circuit, the disconnecting winding of the relay is connected between the closing contacts of the main relay and the first tap of the autotransformer. 3. Stabilizer according to claim 2, characterized in that an additional disconnecting contacts of the main relay are connected in parallel to the winding of the auxiliary relay. Sources of information taken into account in the examination 1. USSR Authorship Certificate No. 783776 according to Application No. 266 366/07, cl. G 05 F 3/06, 1978. Lv-A . J y one / GO sixteen Гъ // O15 -