SU866714A2 - Charging device - Google Patents

Description

(54) CHARGE DEVICE

Claims (1)

. The invention relates to e vkgrohvvik and can be used in devices Olya charging capacitive drives for high voltage when using low-voltage power supplies According to the author. St. Jsft 63О734 is known a charging device containing a transistor transistor, the base of which is connected to a collector in the power supply bus through a resistor, the transistor emitter is connected to a parallel aerosego circuit and a piezoelectric transducer output, the output of which is connected to the first enclosure through a rectifier and to the first transistor of the piezoelectric transducer. the lining of which is connected to another output {phossel and to the common busbar, the base of the transistor is connected to the first) the lining of the accelerating capacitor, the second lining of which is connected to the ofatn electrode th communication piezoelectric transformer drawback with such a device vlve botshoe time charge. The purpose of the invention is to reduce the charge time. The goal is achieved by the fact that in a charging device containing a transistor, the base of which is connected via a resistor to the collector and to the power bus, the emitter of the transistor is connected to a parallel-connected choke and to the input of a gynezoelectric transformer, whose output through a rectifier is connected to the first plate of the accumulator; The second cover of the boiler is connected to the other terminal of the throttles and to the busbar, the base of the transistors is connected through the accelerating condensate to the feedback electrode of the piezoelectric transducer. an adformer, enter an adder, the inputs of which are connected respectively to the feedback electrode and to the additional feedback electrode of the piezoelectric transformer, and from volts (on the accelerator capacitor plate, the auxiliary output of the piezoelectric transformer is connected to the rectifier input, FIG. 1 The diagram of the device is presented; 4ig diagram shows the operation of the device.The device contains a transistor 1, a resistor 2, a choke 3, a piezoelectric transformer 4 with its input 5, electrodes 6 and 7 connection, output 8, additional output 9, as well as the rectifier 10, the accelerating capacitor 11, the adder 12 storage capacitor 13. The specified device operates in self-oscillatory; mode. When the power source is turned on in a closed system formed by a transistor 1, a piezoelectric transformer 4 with an output to, the reverse electrodes 6 and 7, the adder 12 and the accelerating capacitor II, non-decaying oscillators occur. To accelerate the process of establishing continuous oscillations in a closed system, the charging device uses: a piezoelectric transformer 4, which provides two parallel-excited systems with close (but not equal) resonant frequencies fp and fp2 (Fig. 2a), with the first oscillatory system having the resonant frequency fp, output 8 and the feedback electrode 6, and the flux oscillating system has the corresponding resonance frequency fp, output 9 and the feedback electrode 7. This makes it possible to form the feedback signal in the form of a vector sum of signals taken from the feedback electrodes 6 and 7 (Fig. 26) using the help of the signal, and the phase balance in the system is set for the generation frequency fj-, which is close in value to. TTAs at a frequency of 1 p are both ko; jubilee systems turn out to be upset. Therefore, despite the high quality factor Q of oscillatory systems, at a frequency fj, their time constants are significantly reduced compared to the value of a constant time per resonance at the frequency P c. Reducing the time constants of oscillating systems will increase the speed of establishing undamped oscillations in a closed system. eventually reducing the charging time of the storage capacitor 13. In addition, the formation of the feedback signal in the form of the vector sum of the signals taken from the feedback electrodes 6 and 7, ox is to increase the amplitude of the feedback signal, which in turn also leads to a reduction in the time of establishing the oscillation process in a closed system and thus reduces the time the charge storage capacitor 13 (FIG. 2a, b). Formula of the invention Charging device according to the author. St. M 630734, characterized in that, in order to reduce the charge time, an adder is introduced into it, the inputs of which are connected respectively to the atomic-electrons and to the additional feedback electrode of the piezoelectric transformer, and the output. from the second plate 1B of the accelerating capacitor, an additional output of the piezoelectric tract {and connected to the input of the rectifier. Sources of information taken into account during the examination I. Author's certificate N & 630734, KL.N 03 K 3 / 53,1977 . D C) 1 and, u -04-5D ts.o j-1 t t f t - | i 4i-i i-Fig.  I $ t§ h % Q § AND : t V (§ 11 I  I , pr