DE3228780C2 - Switching power supply - Google Patents

Abstract

A primary clocked power supply, which generates several regulated output voltages, is operated in push-pull mode. The output voltages are generated by single-ended rectification. The push-pull stage is controlled from the mains voltage in such a way that the pulse duty factor is changed by asymmetry in such a way that the useful output half-waves are constant in their amplitude.

Description

characterized.

- that the flow time (fi) according to the equation

4 »

f, = T (UU ,.): a

is controlled with

T = period of the operating frequency of the switching device

L'o = constant amplitude of the during the Flow time at the voltage applied to the primary winding

U, = value of the DC input voltage w indicates that the input capacitor (Cc) at 50 Hz mains voltage operation and bridge rectification is about 0.5 μ! "To 1 μΡ per watt output power.

5. Schaltncizgcrät according to claim I, characterized in that that the operating frequency / "of the discharge circuit f £ S, J is in the range of 50 kHz

b. Switching power supply according to Claim \, characterized in that a coil (Fig. 2) is used instead of the transformer (Tr) and that the rectifying diode is so polarized. that the output voltage Uj is equal to the constant voltage amplitude a.

7. Switching power supply according to one of the preceding claims, characterized in that an additional control feedback (RC) is tapped from an output voltage i /, which influences the Fiußzcit / 1 via a control of the reference voltage (U _rc i) .

8. Switching device according to claim 7, characterized in that the /.usäi/.liche control feedback (Rv ) is tapped via a diode from the primary winding (no).

9. switch power supply according to one of claims 1 to 8, characterized in that in the event of a short circuit the operating frequency ^ is changed.

- by completely discharging the capacitor (C ₁ ) with the operating frequency (f) at the beginning of the flow time (t \) by a discharge circuit (ES)

- and that the flow time (fi) is determined by a comparator (IE) to which the charging voltage of the capacitor (C,) and a reference voltage (UnD) are fed.

2. Switching power supply according to claim 1, characterized in that that instead of the ffC-Glicdcs a /./?- Link is provided.

3. Schaltnetzgcriit according to claim 1, characterized. claLi the constant Spaniuingsarnnliude U ₁ , about '/, the minimum input voltage IJ. amounts to.

4. Schallnot / device according to claim I. thereby g <; -

The invention relates to a switching network / device for conversion an input DC voltage into one or more adjustable stabilized output DC voltages

- with a push-pull switch controlled by the pulse duty factor

- to the primary winding via a coupling capacitor a TransiormaM> is connected,

- Which during a flow time via the Gcgenlakl switch is connected to the DC input voltage and

- the remaining time of the pulse period specified by a pulse generator with a constant working frequency the switched-mode power supply is connected to the reference potential,

where the output DC voltages by single ended rectification can be obtained during the river time and

where the duration of the iußzcit from the input voltage What is derived from the start of charging by means of a pulse supplied by the pulse generator - and with it the flow time - a capacitor connected to the input DC voltage via a resistor (WC member) is set with one corresponding to the flow time, the counter-act scarf supplied switching pulse is terminated when the capacitor voltage has reached a pre-W) given comparison value exceeds.

Such a Schaltnclzgcrat is from DE-AS 45 097 known.

There the WC-Cjlicd acts as a differentiating circuit, at your. '! he condenser / u beginning of the river / egg! by a falling edge of one supplied by the pulse generator Inipulse of constant amplitude is brought to a low potential and then via the resistor

stand on the input DC voltage begins to charge when the voltage on the capacitor reaches the as Base-emitter forward voltage of a transistor, which acts as a reference voltage, then this turns on and ends the flow line of the reverse switch.

Since the steepness of the charging of the capacitor depends on the level of the input DC voltage, behaves the flow time is roughly inversely proportional to changes in this voltage.

In this known switched-mode power supply, the flow line is also dependent on the temperature behavior of the base-emitter forward voltage of the transistor and of the amplitude of the pulses supplied by the pulse generator.

From DE-OS 25 53 868 a switching power supply is known in which a push-pull switch is also a function is controlled by changes in the input voltage, but there is no coupling capacitor is present and generates the output voltage during both switching positions of the Gcgcntakischaiicrs will.

In this switched-mode power supply, a capacitor of a /? C element is charged by the input voltage, until the charging voltage exceeds a comparison value, whereupon the push-pull switch establishes the connection between the input and output of the switching device interrupts and produces a free-wheeling circuit for a series inductance, so that their stored Energy is also fed to the output.

The capacitor is completely discharged at a fixed frequency by a parallel switch.

In this switched-mode power supply, too, there is accordingly an inversely proportional dependency of the sound positions of the push-pull switch is reached by the input voltage.

Since the output voltage is generated during both switching positions, the Equivalent stress depends on this stress.

Starting from the sound power supply according to the DE-AS 23 45 097, the invention is based on the object of protecting one or more DC output voltages against changes to stabilize the input DC voltage in a wide range with high precision, with small input capacitances get along and achieve a high level of efficiency.

This task is solved with the features characterized in claim I.

Advantageous refinements result from the measures according to the subclaims.

For example, the measure according to claim 3 makes it possible to have a particularly small input capacitance to use, which then results from the dimensioning of this capacity according to claim 4, to stabilize the output voltage in the desired way even if 4 mains half-waves fail can.

With the measure according to claim 7 known from DE-OS 25 53 868, additional load-dependent Changes in the output voltage are prevented.

Further details and advantages of the invention Power supply unit can be seen from the exemplary embodiments.

F i g. I shows a block diagram of the invention Power supply unit. F i g. 2 shows a special embodiment of the invention according to Nei / .gcriiics Fig.l.

In the circuit according to FIG. 1, the input voltage (Λ at the input capacitor C-, in the present example obtained via a bridge rectification from the 50 Hz mains voltage and connected on one side to reference ground. F. in push-pull switch GTS. E.g. from switching

■ 5 transistors, is connected to the capacitor C-. At the output of the clock switch GTS , the primary winding na of the transformer Tr is connected to reference ground via the coupling capacitor Cj. On the secondary side, the stabilized output voltages Ux 1 to Ux π are tapped on the transformer Tr via the secondary windings nx 1 to nx η after the respective single-ended rectification by means of diode D. The push-pull switch GTS is controlled by a pulse generator circuit / Em with a square-wave voltage with the duty cycle tv and the period T , the duty cycle tv being controllable. To control the pulse duty factor, a fixed, predetermined comparison or reference voltage ίΛ, -round the charging voltage of a v -capacitor C, is applied to the pulse generator circuit IE. In order to generate the charging voltage, the capacitor C, via a resistor k, is charged by the input voltage L / and discharged via an electronic switch ES with a switching or working frequency / ". Thus, the flow time fi of the push-pull switch GTS is controlled by the pulse generator circuit IE is supplied with the reference voltage U _n i and compared with the charging voltage of the capacitor C ₁ .
In addition, an additional control feedback R _r from an output voltage U _x can act on the comparison or reference voltage Unt in order to achieve an even higher stabilization of the output voltage Uy .

Fi g. 2 show another possible embodiment of the

j5 power supply according to the invention when only an output voltage of the size U _{1 -U 1 is} required and no galvanic isolation is required, so that instead of the transformer Tr a small inductance L can be used. In this case, the gemiß Fig.l driven push-pull switches GTS Koppclkondensator C _- placed via an inductor L to the Bczugsmasse and a Glcichrichterdiode D connected to the connection point between the Koppelkondcnsaior C and the inductance L with nachgeschaitetem filter capacitor, wherein the diode D is again polarized so that the constant AC voltage amplitudc U _{n is used} to obtain the constant output voltage ίΛ.

1 sheet of drawings

Claims (1)

Patent claims: 1. Switching network / device for converting a DC input voltage into one or more setting · -. bare stabilized DC output voltages - with an over the duty cycle controlled Push-pull switch - to the pri- in via a coupling capacitor märwickung of a transformer is connected. - which during a flow time via the push-pull switch is connected to the DC input voltage and i> - the remaining line of the by a pulse generator with a constant working frequency, the pulse period of the vision device with reference DOiential is specified connected is. - The DC output voltage being obtained by single-action rectification during the flow / cil will and - where the duration of the flow line is derived from the input equal voltage is derived - for which purpose means of the pulse generator gclie->^r> ferten pulse, the start of the charging - and thus the flow time - a capacitor located through a resistor to the Eingangsgleiehspannung (WC element) is set in - where a sound pulse corresponding to the flow line and guided by the Gcgentaklschrlier / -guided is ended when the capacitor voltage exceeds a predetermined comparison value. ) ">