CS256260B1 - Connection of pulse voltage stabilizer with blocking converter - Google Patents

Abstract

Pulse stabilizer wiring voltage with a blocking converter is for construction of a simple source stabilized voltage with galvanic isolation of output the circuit from the input circuit, Is ~ composed of a blocking converter and a control circuit, which is a comparator, feedback optoelectronic member control transistor, desaturation diode, emitter, base, collector a desaturation resistance. It is designed to power various devices and auxiliary circuits signaling, automation, security and other techniques.

Description

The invention solves the connection of a pulse voltage stabilizer with a blocking converter and a galvanically isolated input and output circuit.

Until now, in simple self-oscillating blocking converters, control has been used to stabilize the output voltage. blocking element from the moment when the output voltage has reached the maximum value until the integration capacitors are discharged to the minimum allowed value. The difference between these two values determines the ripple of the output voltage, which is quite considerable. The maximum value of the primary current at which the transistor opens is dependent on the drive current and hence on the input voltage, current amplification factor and temperature.

The above drawbacks overcome the circuitry of the invention wherein the input positive terminal is coupled to the positive input of the blocking converter, the input negative terminal is coupled to the base resistor and cathode of the desaturation diode, and the negative input of the blocking converter. The blocking input is coupled to the collector of the feedback optoelectronic transistor and to an emitter resistor that is coupled to the emitter of the control transistor. The base of the control transistor is coupled to the transistor emitter of the feedback optoelectronic element and to the base resistor, wherein the control transistor collector is connected to the drive input of the blocking converter to which the desaturation diode anode is connected via a desaturation resistor. The positive output of the interlocking converter is coupled to the output positive terminal and the comparator input, the output of which is connected to the anode of the feedback optoelectronic element diode, the cathode of which is connected to the negative output of the interlocking converter connected to the negative terminal of the output.

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The connection of the pulse voltage stabilizer with the blocking converter allows the construction of a simple source with galvanic separation of the input circuit from the output with blocking and with a small ripple of the output voltage independent of the input voltage.

The connection of the pulse voltage stabilizer to the blocking converter according to the invention is shown on the attached drawing.

It consists of a known interlocking converter 10 consisting of a pulse transformer 20, a switching transistor 16, a diode 17 and an integrating capacitor 18. The output of the comparator 50 is connected to the positive output terminal 4, the output of which is connected to the diode of the feedback optoelectronic. the transistor 41 is connected via an emitter resistor 10 via a collector of the feedback optoelectronic element 40 and a blocking input 2, the collector via a collector resistor 32 is coupled to an excitation input 12 and a desaturation resistor 33 ' 31, the input negative terminal 3 connected to negative input 13 of inverter 10 and blocking the cathode of the diode 42 _t desaturation .is which anode is connected to resistor desaturáčním 33rd

A non-stabilized input voltage is applied to the input positive terminal 11 and the input negative terminal 3. If a positive voltage is applied to the blocking input 2, the current flows through the emitter resistor 30, the open control transistor 51. The collector resistor 32 to the drive input 12 of the blocking converter 10. Through the winding 22 causes the switching transistor 16 to open. The primary winding 21 starts to increase current. When it reaches a value that is determined by the current flowing to the base of the transistor 16 and its current amplification factor, it is closed and the stored energy in the core of the pulse transformer 20 is transferred to the integration capacitor 18 via the secondary winding 23. The opposite polarity of the voltage across the coupling winding 22 will contribute to the transistor 16 causing the current to flow through the desaturation resistor 33 of the desaturation diode 42 and thereby rapidly discharging the charge from the base to emitter of the switching transistor 16. This operation is repeated.

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When the voltage at the integrating capacitor 18 reaches the desired value, which is sensed by the comparator 50, current flows from the comparator 50 output to the diode of the optoelectronic coupler 40, the transistor of which opens slightly causing the control transistor 41 to close. to the base of the switching transistor 16 and to accumulate less energy in the core of the pulse transformer 20. The base resistor 31 serves to open the control transistor 41.

The interconnection of the pulse voltage stabilizer with the blocking converter according to the invention can be used in power supplies of various devices used in automation, signaling, security technology and elsewhere.

Claims (1)

SUBJECT OF THE INVENTION Pulse voltage stabilizer connection with a blocking converter, characterized in that the input positive terminal (1) is connected to the positive input (11) of the blocking converter (10), the input negative terminal (3) is connected to the base resistor (31) and the cathode of the desaturation diode (42) and the negative input (13) of the blocking converter (10) _R and that the blocking input (2) is connected with kolektrorem transistor feedback optoelectronic element (40) and an emitter resistor (30) which is connected to the emitter of the control transistor (41 Whose base is connected to the emitter of the feedback optoelectronic element transistor (40) and to the base resistor (31), the collector of the transistor (41) being connected to the drive input (12) of the blocking transducer (10) to an anode of the desaturation diode (42) is connected via the desaturation resistor (33), while the positive output (14) of the blocking converter (10) is connected to the output positive terminal (4) and a comparator input (50), the output of which is connected to the anode of a feedback optoelectronic element (40), the cathode of which is coupled to the negative output (15) of the blocking transducer (10) connected to the negative Y-terminal (5).