SU1372289A1 - D.c.voltage pulse stabilizer - Google Patents

Abstract

The invention relates to the secondary power supply sources of electronic equipment. The aim of the invention is to simplify while increasing the quality of the output voltage. Signals from the input current sensor 5, the time of the driver element 6 and the feedback circuit 15 are supplied to the input of the threshold element controlling the operation of the element switching element. The output of the device is shunted by the output voltage sensor 8, the average output 9 of which is through the correction unit 12, and the additional outputs 10 and 11 are connected via diodes 13 and 14 to the input of the feedback circuit 15. The switching element 1 is turned on by the signal from the time of the giving element 6, and is turned off when the output current sensor 5 is equal and the feedback circuit 15. 2 Il. (L

Description

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The invention relates to electrical engineering and can be used in sources of secondary power supply with increased reliability.

The purpose of the invention is to simplify while improving the quality of the output voltage.

FIG. Figure 1 shows a diagram of a switching regulator of a constant voltage of a lowering type; Fig. 2 shows a diagram of a switching voltage regulator of a polar inverting type.

The stabilizer contains a switching element 1, a smoothing DLC filter, including a choke 2, a diode 3, a capacitor 4, an input current sensor 5, a time setting element 6, a threshold element 7, an output voltage sensor 8 having a main 9 and two auxiliary 10 and 11 output terminals, correction unit 12, diodes 13 and 14, feedback circuit 15 and load 16.

Series-connected switching element 1, input current sensor 5 and a DLC filter are connected between the input and output terminals. The threshold element 7, the output of the connection with the control input of the switching element, the input is connected to the outputs of the input current sensor 5, the time of the driver element 6 and the feedback circuit 15. The output voltage sensor 8, connected to the output terminals, output 9 via the correction block 12, and outputs 10 and 11, respectively, through the diodes 13 and 14 is connected to the input of the feedback circuit 15.

The stabilizer works as follows.

At the initial moment of time, a start pulse, arriving from the time of the driver element 6, translates the threshold element 7 to the position at which the switching element 1 closes. The input current flowing through choke 2 (its primary winding) begins to increase smoothly and the voltage at the output of sensor 5 accordingly increases. At the moment when this voltage reaches the value set by feedback circuit 15.

After the set} 1n, th time interval, the next start pulse generated by the time by the driver element 6 causes the second element 7 to be triggered again, bringing the switching element 1 to a closed state. Further, the stabilizer works in a similar way until the moment when the signal coming through the diode 13 from the output 10 of the sensor 8 of the output voltage to the input of the feedback circuit 15 does not cause a decrease in the voltage at the output of the specified circuit 5. As a result, the threshold value also decreases the input current at which the threshold element 7 is triggered. Accordingly, the energy that is accumulated and transmitted by choke 2 to the output circuit decreases, and the voltage rise at the output of the stabilizer stops.

Next, negative feedback starts to act, stabilizing the voltage at the upper predetermined level. The voltage ripples at the output of the stabilizer are quite large, since the pulsating component of this voltage, the passage through the feedback circuit 15, is amplified and causes the corresponding pulsations of the threshold value of the input current, which in turn further amplifies the voltage ripples output stabilizer.

After a certain period of time, the signal at the output of the correction unit 12 will also reach a level that causes a decrease in the voltage at the output of the feedback circuit 15. Further, the voltage stabilization at the output of the stabilizer will be carried out at a predetermined level due to the action of the correction unit 12 having a low level of output voltage ripple. Consequently, the voltage ripples at the output of the feedback circuit 15, causing corresponding pulsations of the threshold value of the input current and the voltage ripples at the output of the device, are also reduced.

If for any reason (for example, when connecting additional

threshold element 7 is triggered, of a different load) output voltage

At the same time, the switching element 1. The choke 2 begins to transfer the stored energy through the diode 3 to the capacitor A and the load 16.

of the stabilizer is sharply reduced, the signal from the output 11 of the sensor 8 of the output voltage through the opened diode 14 will go to the input of the circuit 15 o

the stabilizer decreases sharply, the signal from the output 11 of the output voltage sensor 8 through the opened diode 14 enters the input of the feedback circuit 15 and causes a sudden increase in voltage at the output of the output circuit.

As a result, the stabilizer begins to operate in the mode of transmission of maximum energy, causing a rapid increase in voltage at the output.

Claims (1)

Invention Formula A pulse voltage regulator containing a switching element connected in series between the input and output terminals, an input current sensor and a DLC filter, a threshold element, an output connected to the control input of the switching element, and the corresponding The input inputs of the current sensor and feedback circuit, the output voltage sensor, connected to the output terminals, and the first output connected to the input of the correction unit, And two diodes, are distinguished by the fact that while improving the quality of the output voltage, the output voltage sensor is equipped with two auxiliary outputs, which are connected via diodes to the output of the correction unit and to the input of the feedback circuit; rows are connected to auxiliary outputs of the sensor output voltage with opposite conclusions. FIG. 2