XENON_FLASHER

This circuit utilizes a voltage-doubler supply to charge a 60 µF capacitor and subsequently discharges it through a Xenon lamp. The SIDAC device, produced by Motorola, is a two-terminal device that triggers at a predetermined voltage. The components R4, R5, and C4 are responsible for setting the flash rate.

The circuit operates by initially charging the 60 µF capacitor through the voltage-doubler configuration, which effectively increases the input voltage to a level sufficient to charge the capacitor to the required voltage for discharging. The SIDAC device plays a crucial role in this circuit by acting as a switch that closes when the voltage across it reaches a certain threshold. Once the SIDAC is triggered, it allows the stored energy in the capacitor to discharge rapidly through the Xenon lamp, producing a bright flash of light.

The resistor components R4 and R5, along with the capacitor C4, are integral in determining the timing characteristics of the flash. The values of these components can be adjusted to control the frequency of the flashes. R4 and R5 form a voltage divider that influences the triggering voltage of the SIDAC, while C4 functions as a timing capacitor that, in conjunction with the resistors, sets the discharge timing interval.

In summary, this circuit effectively combines a voltage-doubler power supply, a SIDAC device for voltage regulation, and a Xenon lamp for high-intensity light output, with adjustable flash rates determined by the selection of resistive and capacitive components. This configuration is suitable for applications requiring brief, high-energy light pulses, such as in photography or signaling devices.Using a voltage-doubler supply, this circuit charges a 60-?F capacitor and discharges it through a Xenon lamp. The SIDAC device is manufactured by Motorola. It is a two-terminal device that breaks over at a specified voltage. R4, R5, and C4 determine the flash rate.. 🔗 External reference