SU1518545A1 - Spark-safe power source - Google Patents

Abstract

The invention relates to electrical engineering and can be used to power an apparatus operating in an explosive environment. The purpose of the invention is to increase the reliability of work and reduce power interruptions when spark protection is triggered. The device contains a primary 1 and auxiliary 2 constant voltage sources, an output transistor 3, a current protection node 4, a discharge shortening node / DDR / 5, and a smooth input node 6. Moreover, USDR 5 is made of two transistors 7 and 8, the bases of which are interconnected through a resistor 9, and through diodes 10 and 11 with the leads of an inductive sensor 12. The latter is connected between the emitters of transistors 7 and 8. The first output of the auxiliary constant-voltage source 2 connected to the interconnected pins of the capacitor 13 and the resistor 14 of the node 6 smooth input. The collectors of transistors 7 and 8 are connected via diode 15. The collector of transistor 7 is connected to the base of output transistor 3. The second terminal of source 2 is connected to the emitter of transistor 3. When sources 1 and 2 are turned on, capacitor 13 is cut, and transistor 3 opens and the current flows through the load. When the output circuit is opened in the inductive sensor, an emf of self-induction occurs. The transistor 7 of the USDR 5 is opened and the transistor 3 is closed by disconnecting the load. The capacitor 13 is diluted through a resistor 14. Diode 15 allows you to increase the sensitivity of USDR 5 and the reliability of the device as a whole. 1 il.

Description

The invention relates to electrical engineering and can be used to power an apparatus operating in an explosion hazardous environment; The purpose of the invention is to increase the reliability of work and reduce the break in the power supply in case of spark protection,

The drawing shows a functional diagram of the intrinsically safe power source,

The intrinsically safe power source contains the main 1 and auxiliary 2 direct voltage sources, the output transistor 3, the current protection node 4, the discharge duration node 5, and the smooth input node 6. The first output of the constant current source 1 is through an output transistor 3 connected to the first output of the intrinsically safe power source. Node 5 reducing the duration of the discharge is made in the form of two transistors 7 and 8, the bases of which are interconnected via a resistor 9 and through diodes 10 and I11 with the outputs of an inductive sensor | 12 connected between the emitters of transistors 7 and 8, the emitter of the transistor; connected to the second output terminal of the intrinsically safe power supply, and the emitter of the transistor 8 is connected through the current protection node 4 to the second circuit of the constant voltage source 1, Collector ;, the torus of the transistor 7 is connected to the base of the output transistor 3, First withdrawal The supply source 2 is connected to the first output of the capacitor 13 of the smooth input unit 6, the second output of the auxiliary source 2 is connected to the emitter of the output transistor 3, the second output of the capacitor 13 is connected to the output of the inductive sensor 12o The output of the capacitor 13 is connected via a resistor 14 to the base of the output transistor 3, which is connected via diode 15 to the collector of transistor 8,

The second output of the auxiliary source 2 can be connected to the collector of the output transistor 3, the second output of the capacitor 13 can be connected to the emitter of the transistor 7, and the output of the node 4 current protection can be connected to the base

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transistor 7, It does not have a significant impact on the achievement of the goal.

The source works as follows.

Through the circuit: auxiliary source 2 - resistor 14 - base - emitter of transistor 3 - auxiliary source 2, base current of transistor 3 flows, capacitor 13 is charged, Transistor 3 is opened through a load connected to the output terminals of an intrinsically safe power source, current flows via the circuit: constant voltage source 1 - collector - emitter of transistor 3 - load - inductive sensor 12 - current protection node 4 - source 1 of constant voltage. Transistors 7 and 8 are closed.

When the output circuit is opened in the inductive sensor, an emf of self-induction occurs. It causes the base current of the transistor 7 to flow through the circuit: diode 10 - resistor 9 - base - emitter of transistor 7, Transistor 7 opens, the voltage at the base of the output transistor 3 decreases, the latter closes, decreasing the source current to zero. The capacitor 13 is discharged through the resistor 14 and the diode 15 prevents current from flowing through the circuit: diode 1C - base - collector of transistor 8 - collector - emitter of transistor 7. Thus, the base current of transistor 7 increases compared with the known device, which increases the sensitivity of the node 5 reduce the duration of the discharge, the reliability of the intrinsically safe power source and reduces the interruption in the power supply when switching the circuit.

Claims (1)

Invention Formula An intrinsically safe power source, containing an output transistor, the collector of which is connected to the first output of the main DC source, and the emitter is connected to the first output of the auxiliary constant voltage source and is the first output of the intrinsically safe power supply, the bit shortening node, the node behind one current boards and a smooth input node, the discharge shortening node contains two transistors, the bases of which are interconnected through a resistor and are connected via diodes to the first inductive sensor emitters and transistors emitters, the first of which is the second output of the intrinsically safe source of the paki, emitter The second transistor is connected through the current protection node to the second end of the main DC source; the output of the current protection node is connected to the base of the second transistor of the reducing node. It is characterized by the fact that, in order to increase the reliability of operation and reduce the breaks in the electric 18545. power supply when the spark is triggered, the smooth input node is made in the form of a series-connected resistor and capacitor, with one of the outputs of the resistor connected to the base of the output transistor, one of the outputs of the capacitor connected to the second-transistor fQ, the combined other terminals of the resistor and capacitor are connected to the second end of the auxiliary DC voltage source, and the discharge shortage node is equipped with an additional diode, the collector of the first transistor being connected to the base of the output transistor and the cathode of which is connected to the collector 20 second transistor.