PL73098B2 - - Google Patents

Description

Priority: Application announced: May 30, 1973 Patent description was published: December 20, 1974 73098 KI. 57c, 3 MKP H05b 41/30 "1" "**" IS THE LIVER OF THE FIRM OF THE FIRST POLAND Hzerc. People's People | Creators of the invention: Ryszard Radzikowski, Mieczyslaw Rudnicki, Zdzislaw Rojek Authorized by the provisional patent: Provincial Association of Labor Cooperatives Biuro Konstrukcyjno-Technologiczne, Zielona Góra (Poland) Thyristor voltage multiplier, especially for electronic flash devices The subject of the invention is a thyristor device, especially for electron flash devices in both the mains and battery power supply through transistor converters for charging the flash capacitor banks. Prior art solutions of electronic flash devices have a typical voltage doubler, where the output voltage is \ / 2 • 440 V with a supply voltage of 220 V. Electronic flash devices based on this principle have unstable flash parameters, i.e. the intensity of the flash light, the duration of the flash and the different color temperature of the light. The aim of the invention is to develop a voltage multiplier which allows to avoid the above-mentioned disadvantages, and thus to improve the technical parameters of electronic flash devices. In order to achieve this goal, the task was to develop such a voltage multiplier system, thanks to which electronic flash devices would have a short recharge time and a high stability of the flash parameters. It was also possible to use flash capacitors with different rated voltages. The problem was solved in a known voltage multiplier, instead of one of the rectifying diodes, a thyristor was used. In such a solution, the thyristor voltage multiplier has stable parameters of the flash, which are not affected by fluctuations in the supply voltage in the range from 150 to 300 V. Charging time of the flash capacitor when powered with AC 220 V network. is about 2 seconds and is 5 times smaller than in the traditional solution. The subject of the invention is illustrated in the example of the drawing, which shows the schematic diagram of a thyristor voltage doubler. As shown in the drawing, the thyristor coil consists of a capacitor 1 connected in series with thyristor 2 and a flash capacitor 3. In the junction between capacitor 1 and thyristor 2 a semiconductor diode 4 is connected, the second electrode of which is connected in parallel with the flash capacitor. 3. In series in the junction between thyristor 2 and capacitor 3 there is a control circuit 5, one of its connections is connected to the gate of thyristor 2. In the first half-period in which diode 4 is conductively polarized, condensation is charged lane 1 to peak voltage. In the second half-period, when the diode 4 is reverse biased, the voltage on the capacitor 1 rises to twice the peak value relative to the negative electrode of the flash capacitor 3. Some electric charge has been accumulated in the capacitor 1. As soon as thyristor 2 begins to conduct, the flash capacitor 3 is charged to the voltage, the value of which depends on the incoming charge with the capacitor 1. By changing the charge time of the flash capacitor 3, we regulate its voltage value. The system 5 controls the blocking and opening time of thyristor 2 in dependence on the desired voltage on the flash capacitor 3. According to the invention, the thyristor voltage multiplier is simple in construction and reliable and effective in operation. It makes it possible to use flash capacitors of any rated voltage. Notwithstanding the above advantages, the circuit automatically increases the flash energy as a result of the capacitor being charged at the moment of the flash. PL PL

Claims (1)

1. Claim 5 Thyristor voltage multiplier, especially for electronic flash devices equipped with capacitors and rectifying diodes, characterized in that in the known voltage multiplier a thyristor (2) is used instead of one of the rectifying diodes. PZG Bydgoszcz, residing in 3218/74, pp. 125 + 20 copies Price PLN 10 PL PL