SU512299A1 - Power supply with intrinsically safe output - Google Patents

Description

Tically, the maximum permissible spark is safe, i.e., the utilization of the intrinsically safe power supply unit is close to one.

Kpd the power supply unit is determined by its emergency modes, which include breakdown of the emitter-collector breakdown of the transition base-collector, breakdown of the transition emitter-collector and breakage of the base. In the case of an emitter-collector breakdown in the event of an overload, the thyristor is triggered by the voltage drop across the diodes 5 and the bi is not restored, as the relay is shorted. During the breakdown of the transition, the “base-collector” thyristor is turned on by a voltage drop across the diode and is also not restored, as the relay is de-energized. During the breakdown of the emitter-collector junction and the base breakage, a process similar to the first emergency mode occurs. In these emergency conditions, it is necessary to provide a threefold current margin for the thyristor 7, which is achieved by resistor 2. Obviously, to increase the efficiency it is necessary to reduce the resistance of the resistor 2, which is practically easy to implement, choosing a thyristor corresponding to the rated currents. Thus, with sufficient rated current of the thyristor 7, it is possible to obtain high enough for intrinsically safe sources of efficiency.

The capacitor and zener diode of the working source are used to reduce the overvoltages in the load switching mode.

The implementation of a power supply unit with a nonlinear current-supplying and current-limiting element in the current cut-off device allowed us to obtain a power supply unit with a spark-proof output, which has a low weight, small dimensions, a load power equal to the maximum permissible spark-proof, and high efficiency 1 0.7 (when the efficiency of the source of the prototype G1 0.2).

Claims (1)

Invention Formula An intrinsically safe power supply unit containing a main and auxiliary power sources, a current-setting diode, a current limiting resistor, a limiting diode, and a cut-off device that differs in order to increase the efficiency and an intrinsically safe power, it is equipped with a current-carrying and current-limiting transistor, the base of which is connected through the current-setting diode to the minus of the additional power source, the emitter through the current-limiting resistor is connected to the plus of the additional power source, and the collector to the current source, to the minus of the main power source and through the limiting diode in straight direction connected to its base.