SU1513579A1 - Stabilized power source - Google Patents

Abstract

The invention relates to electrical engineering and can be used in secondary power sources of electronic equipment and computing equipment. The purpose of the invention is to improve the performance by increasing the speed of restoring the soft start node without increasing the current consumed from the auxiliary power source by the soft start node and without compromising the depth of the node repair. The source contains an adjustable inverter 2, a transformer 3, a control circuit 7, a soft switching node 8, an auxiliary power supply 9. Before switching on the source, the capacitor 16 is discharged, its charge is started by the current of the two-pole 17, and the duration of the pulses of the control circuit 7 is gradually increased. Together with the full charge of the capacitor 16, the source is switched on. To accelerate the discharge of the capacitor 16 and restore the soft-switching node 8, a diode 22 and a resistor 21 are introduced, which increase the discharge current at the same voltage value. 1 il.

Description

1513579

17, while the duration of the pulses of the control circuit 7 is gradually increased. Together with the full charge of the capacitor 16, the source is switched on. To accelerate the discharge of the capacitor 16 and restore the soft-switching node 8, a diode 22 and a resistor 21 are introduced, which increase the discharge current at the same voltage value.

1 il.

The invention relates to electrical engineering and can be used in secondary power sources of electronic equipment and computer equipment.

The purpose of the invention is to improve the performance characteristics by increasing the speed of restoring the soft start node without increasing the current consumed from the auxiliary power source of the soft start node and without compromising the depth of the node recovery.

The drawing shows a functional diagram of a stabilizing power supply.

The stabilizing power supply includes input terminals, a transistor controlled inverter 2, an output transformer 3, a rectifier 4, a filter 5, output pins 6p control circuit 7, a soft switching node 8, auxiliary power supply 9. The control circuit 7 comprises a first input 10 for tracking the value of the output voltage of the source at the terminals 6, the first output 11 for issuing pulses to the control input 12 of the transistor controlled inverter 2, the second input 13 for providing soft switching, the second output 14 for the restoration of the node of soft switching and feeding; input 5; The node of 8 soft switching contains

a capacitor 16, a current-supply bipolar 17, a first transistor 18, a second transistor 19, a resistor 20, a chain of successively connected resistors 21 and a diode 22 connected between the collectors of the first and second transistors. Auxiliary power supply 9 contains input terminals 23 and output 24,

The stabilizing power supply operates as follows.

In the steady-state operating mode, the voltage at the input pins 1 is converted by a transistor adjustable inverter 2 into a series of pulses of increased frequency, which transmits c through the output transformer 3 to the input of the rectifier 4 with the changed amplitude and galvanic-isolation, and then after smoothing by the filter 5 it enters on the output pins 6, In the control circuit 7, the output voltage of the stabilizing power supply source received at the first input 10 is compared with the internal voltage source of the reference voltage Enhancement, by the feedback amplifier, of the received error signal, igarot-modulation of this amplified signal, and outputting, through the first output of 11 nm pulses, of an automatically variable duration for control, through input 12, to a transistor-controlled inverter 2 so that any change in the output voltage source is compensated by varying the duration of the pulses, i.e, in order to stabilize the output, on the voltage of the Auxiliary power supply 9, as usually represents The constant voltage converter also produces a voltage 24 at its output. for powering both the soft switching node and the control circuit 7, going to its power input 15, the control circuit 7 is constructed so that its second output 4 a high level (t, ec Hajm4He signal) appears when necessary shut down the stabilizing power supply and start recovering the angle from the soft switch-on, and a low level (t, e, no signal) - when it is necessary that the stabilizing power supply be turned on, the second input 13 uses such a point of the control circuit 7, lowering cat potential swarm reduces the width of the pulse and hence to umen1 Sheni velichi.ny of stabilizing the output voltage from the power source potential povppenie - accordingly to increase the pulse width and magnitude of the output voltage. At the same time, with a sufficiently small voltage on the second

inlet 13 there is a disappearance of them - 1

pulse and output voltage completely, As the second input 13 can be used, for example, the output of the source of the reference voltage of the control circuit 7,

In the established operating mode, the signal at the second output 14 of the control circuit 7 is absent, the transistors 18 and 19 are locked, the capacitor 16 is charged to the maximum voltage, determined either by the auxiliary voltage

is strong, and the current of the two-port 17 is sufficiently low so that the voltage rise rate of the capacitor 16 (and therefore the rate of increase in the width of the pulses) would be small enough so that in the power circuit of the transistor adjustable inverter 2, the output transformer 3, the rectifier 4 constitutes the current for charging the filter sensor 5 would be negligible.

The turn-on process ends with J2 completing the charge of the capacitor 16,

In the case of generating a signal at the second output 14 of the control circuit 7 (which happens, for example, when the staging power source 9, or the 20 billing power source or a particular control circuit 7 is switched on with the protection triggered) by the current of this second input 13, In this mode

the signal opens the transistor 19, which opens the emitter current and the transistor 18, the process begins

The node 8 soft switching does not affect the power of the pulses.

and it is determined by the presence of 25 bits of capacitor 16 through transistor 18, the base current of transistor 18 is determined by the sum of two currents: the current through resistor 21 and the current through resistor 20, while the parity current, the capacitor 16 is The cut resistor 20 is almost unstable for the output voltage of the stabilizer of the power source, I In the mode preceding the beginning of the stabilizing source of the electrically weighted state, In the turn-on mode there can be two cases. In the first case, when the voltage on the input the pins 1, when the voltage appears at the output 24 of the auxiliary power source 9, the signal at the second output 14 of the control circuit 7 is absent and the transistors 18 and 19 remain non-conductive. In the second case, if the availability of pi in advance is less than the sum of the emitter-base voltages

The transistors 18 and 19 are open by the signal from the second output 14 of the control circuit 7, the pulses at the first output of the control circuit 7, the natransistor 18 and the emitter collector of the transistor 19, the current through the resistor 21 disappears, since the diode 22 does not pass current in the reverse direction, the output on the output pins 6 stable. The resistance of the resistor 20 selects the power supply source from high enough to be present, and the switching process starts through it from the output voltage with the signal removed at the second output of the auxiliary power supply 9

control circuits 7, because of which tran would be the minimum necessary for

The resistors 18 and 19 are locked, B, both of which hold Q transistor 18 sufficiently. In some cases, the process of charging a constant saturation begins when the dispenser 16 already has a current of two-terminal driver 17, during which the voltage on the capacitor 16 and the pulse voltage at the first output 11 is the base current of the transistor 18 and

The control circuit 7 smoothly increases — a large collector current of trans,.

The capacitance value of the capacitor 16 is usually selected with a sufficiently large capacitor 16. The resistance of the resistor 21 is chosen sufficiently small to provide a large

to the resistor 18 for quickly discharging the capacitor 16. Thus, the process of discharging the capacitor 16 occurs with

is strong, and the current of the two-port 17 is sufficiently low so that the voltage rise rate of the capacitor 16 (and therefore the rate of increase in the width of the pulses) would be small enough so that in the power circuit of the transistor adjustable inverter 2, the output transformer 3, the rectifier 4 constitutes the current for charging the filter sensor 5 would be negligible.

The turn-on process ends with J2 completing the charge of the capacitor 16,

In the case of generating a signal at the second output 14 of the control circuit 7 (ch, it happens, for example, when the stabilizing power source is turned on or when the protection trips) by the current

the signal opens the transistor 19, which opens the emitter current and the transistor 18, the process begins

five

The current through the resistor 2 I depends on the voltage on the capacitor 16. With a large voltage on the capacitor 16, the current through the diode 22 and the resistor 2 also has a large value. When the voltage on the capacitor 16 is low, the current through the diode 22 and the resistor 21 also has a small voltage. When, the voltage on the capacitor 16 becomes

base current to transistor 18 and these

For a capacitor 16, the resistance of the resistor 21 is chosen small enough to provide a large

 same - a large collector current trans-

to the resistor 18 for quickly discharging the capacitor 16. Thus, the process of discharging the capacitor 16 occurs with

a current much higher than the value that would have occurred in the absence of diode 22 and resistor 21 at the same signal current from the second output 14 of the control circuit 7 — This ensures that the capacitor 16 is quickly discharged and the node 8 is switched on to be quickly restored for repeated operation , and if the locking of the transistor controlled inverter 2 in case of accidents occurs by the control circuit 7 only through the 8 soft switching node, then the quick response of the protection. The current consumed from the auxiliary power supply 9 with the 8 soft switching node, as well as the current from the signal at the second output 14 of the control circuit 7, has a small value, i.e. the circuit is economical in current consumption. Due to the fact that the collector of the transistor 19 is connected via a resistor 20 to the auxiliary power supply 9, the circuit also provides a small amount. the saturation voltage of the transistor 18 and this is a sufficient depth of the discharge of the capacitor 16.

I

Thus, the presence of a resistor

21 and diode 22 provides improved performance of the stabilizing power source by increasing the speed of restoring the soft start node without increasing the current consumed by the soft power source of the soft start node, and without worsening the depth of the node recovery.

Claims (1)

Invention Stabilized 1Y power source containing a transistor controlled inverter with an output transformer, through a rectifier and a filter connected to the output pins, a control circuit, the first input connected to one of the output pins, and the first output to the control the input of the transistor regulated inverter, the soft switching node with the output capacitor and parallel to it the collector-emitter junction of the first transistor, where the collector of the first transistor is to the second input of the control circuit and to one of the terminals of the current supplying two-port network, the base of the first tran sensor is connected to the emitter of the second transistor, the base of which is connected to the second output of the control circuit, and the collector is connected via a resistor d by an auxiliary power source, an input connected to the terminals of a stabilizing power source, and an output - / with a power supply input of the control circuit and with a different current of the two-terminal current supply circuit, which is different from that With the performance improvement circuit by increasing the speed of restoring the soft start node without increasing the current consumed from an auxiliary power supply node switching on, and without degrading the depth of the node recovery, between the collectors of the first and second transistors, a chain of series-connected resistors and a diode is pushed down.