AT512750A1 - Square converters with coupled coils - Google Patents

Abstract

For special applications such as wide-range power supplies, but also power factor correctors, it can be interesting if in the voltage translation ratio also terms that depend quadratically on the duty cycle, occur. In the following, a family of converters is presented, with which such voltage translation ratios can be realized. They are very simple as far as the control is concerned, since the converters have only one active switch. In addition, three more passive semiconductor switches (diodes) are used. Inductive components are a coil and two magnetically coupled coils or a pair of two magnetically coupled coils. In addition, an electric energy storage in the form of a capacitor is still needed. With some converters, a potential separation between input and output can be realized without additional effort. Due to the coupled coils, the voltage ranges of input and output can be adapted more flexibly.

Description

• ♦ • * • 4 ♦ · ρ ··· «··

Square converters with coupled coils

The invention relates to a converter consisting of a first (N21) and a second (N22) coupled winding connected in series, a first (D1), a second (D2), a third (D3) diode, a capacitor (C ), a coil (L) of a positive (1) and a negative (2) input terminal, between which the input voltage is turned on, a positive (3) and a negative (4) output terminal, between which the load is connected and an active switch (S) with associated control, wherein the positive input terminal (1) is connected to one terminal of the coil (L) and to the cathode of the second diode (D2), to the second terminal of the coil (L) is a terminal of the capacitor (C ) and the positive terminal of the active switch (S) is connected, whose negative terminal is connected to the negative input terminal (2) and to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor Second, a converter consisting of a first (N21) and a second (N22) coupled winding, a first (D1), a second (D2), a third (D3) diode, a capacitor (C ), a coil (L), a positive (1) and a negative (2) input terminal between which the input voltage is turned on, a positive (3) and a negative (4) output terminal between which the load is turned on and an active one Switch (S) with associated control, wherein the positive input terminal (1) is connected to one terminal of the coil (L) and to the cathode of the second diode (D2), to the second terminal of the coil (L) one terminal of the capacitor ( C) and the positive terminal of the active switch (S) is connected, whose negative terminal is connected to the negative input terminal (2) and to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second Connection of the capacitor (C) connected i st, and third converter, consisting of a first (Nil) and a second (NI2) coupled winding, which are connected in series, a first (Dl), a second (D2), a third (D3) diode, a capacitor (C), a coil (L), a positive (1) and a negative (2) input terminal, between which the input voltage is connected, a positive (3) and a negative (4) output terminal, between which the load is connected and an active (S) switch with associated control, or fourth converter, consisting of a first (Nil) and a second (N12) magnetically coupled winding, which are connected in series, a first (Dl), a second (D2), a third (D3) diode, a capacitor (C), a third (N21) and a fourth (N22) magnetically coupled winding connected in series, one positive (1) and one negative (2) input terminal, between which 1 P98 / 20120326 / fh the input voltage is switched on, one positive iven (3) and a negative (4) output terminal between which the load is connected and an active (S) switch with associated control, or fifth converter consisting of a first (Nil) and a second (NI2) magnetically coupled winding which are connected in series, a first (D1), a second (D2), a third (D3) diode, a capacitor (C), a third (N21) and a fourth (N22) magnetically coupled winding, a positive ( 1) and a negative (2) input terminal, between which the input voltage is switched on, a positive (3) and a negative (4) output terminal, between which the load is connected and an active (S) switch with associated control, or sixth A converter consisting of a first (NI) and a second (N2) coupled winding connected in series, a first (D1), a second (D2), a third (D3) diode, a capacitor (C), a Coil (L), a positive (1) and e iner negative (2)

Input terminal, between which the input voltage is switched on, a positive (3) and a negative (4) output terminal, between which the load is connected and an active switch (S) with associated control, the positive input terminal (1) with a connection of Coil (L) and to the cathode of the second diode (D2) is connected to the second terminal of the coil (L) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected to the anode and the the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected and the anode of the first diode (Dl) to the negative input terminal (2) is connected, or seventh converter, consisting of a first (NI) and a second (N2) coupled winding connected in series, a first (Dl), a second (D2), a third (D3) diode, a capacitor (C), a coil ( L), a positive (1) and e a negative (2) input terminal between which the input voltage is connected, a positive (3) and a negative (4) output terminal between which the load is connected and an active switch (S) with associated drive, the positive input terminal (1 ) is connected to one terminal of the coil (L) and to the cathode of the second diode (D2), to the second terminal of the coil (L) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected and to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected and the anode of the first diode (Dl) is connected to the negative input terminal (2), eighth converter consisting of a first (NI) and a second (N2) coupled winding, which are connected in series, a first (Dl), a second (D2), a third (D3) diode, a capacitor (C ), a 2 P98 / 20120326 / fh

Coil (L), one positive (1) and one negative (2) input terminal between which the input voltage is switched on, a positive (3) and a negative (4) output terminal between which the load is switched on and an active (S) Switch with associated control, or ninth converter, consisting of a first (Nil) and a second (NI2) magnetically coupled winding, which are connected in series, a first (Dl), a second (D2), a third (D3) Diode, a capacitor (C), a third (N21) and a fourth (N22) magnetically coupled winding, which are connected in series, a positive (1) and a negative (2) input terminal, between which the input voltage is turned on, a positive (3) and one negative (4) output terminal between which the load is connected and an active (S) switch with associated control, or tenth converter, consisting of a first (Nil) and a second (NI2) magnetically gekopp series winding connected in series, a first (D1), a second (D2), a third (D3) diode, a capacitor (C), a third (N21) and a fourth (N22) magnetically coupled winding, one positive (1) and negative (2) input terminals, between which the input voltage is switched on, a positive (3) and a negative (4) output terminal between which the load is connected and an active (S) switch with associated control.

The voltage conversion ratio of DC / DC converters in continuous operation depends on the input voltage and duty cycle d of the active switch. The best known are the buck converter, the jack-up and the Hochtiefsetzer. With the input voltage U \ and the output voltage t / 2 whose voltage translation ratio Mim steady state can be ideal

Components with M = - = d, M = - = -, M = - = - are specified. The U2 U2 1-d U2 1-d

Voltage conversion ratio consists of polynomials of first order, For special applications such as wide-range power supplies, but also power factor correctors, it may be interesting if in the voltage translation ratio also threshing, the square of the duty ratio, occurrence. In the following, a family of converters is presented, with which such voltage translation ratios can be realized. They are very simple as far as the control is concerned, since the converters have only one active switch. In addition, three more passive semiconductor switches (diodes) are used. Inductive components are a coil and two magnetically coupled coils or a pair of two magnetically coupled coils. In addition, an electric energy storage in the form of a capacitor is still needed. For some converters 3 P98 / 20120326 / fh «· ·· ♦ · *, a potential separation between input and output can be realized without additional effort. Thanks to the coupled coils, the voltage ranges of input and output can be adapted more flexibly (similar to a transformer). It should be noted, however, that the coupled coils, when connected in series and looking like an autotransformer, do not function as such.

The invention will be illustrated with reference to some pictures. As active switches, n-channel MOSFETs are shown by way of example. Fig. 1 shows the variants of the input stage, Fig. 2 shows the variants of the output stage. Fig. 3 shows an example of a combination.

The power section of the representational converter can be split into two parts.

The first part consists of the active switch (S), a capacitor (C), two diodes (Dl, D2) and a coil (L) or two magnetically coupled coils (Nil, N12) and is the active switching part. The variants of the input stage are shown in FIG. The variants each have a name. The numbers 1 and 2 indicate the basic type, a subsequent v indicates that at the connection point of the two coupled coils, the input voltage, a subsequent d indicates that the cathode of the second diode is connected at the connection point of the two coupled coils. The second part of the converter consists of passive components, namely the third diode and a coil (L) or two magnetically coupled coils (N21, N22). The variants of the input stage are shown in FIG. The variants each have a name. The number 1 or 2 indicates the basic type, a subsequent v indicates that at the connection point of the two coupled coils, the first part of the converter, a subsequent d indicates that the third diode is connected at the connection point of the two coupled coils. A subsequent i indicates that the voltage at the output is inverted to the input voltage. A subsequent p indicates that the voltage at the output is isolated from the input voltage. The variants of the input part can now be combined with the variants of the output part. To gain consistency and a better overview, the converters are grouped in the claims.

In claim 1, the variants with the input circuit 1-, in claim 2, the associated potential-free variant are described. In claim 3, the variants of the input circuits ld- and lf- with the variants of the output circuit with coil in claim 4, the variants of the input circuits ld- and lf- with the variants of the output circuit with two other coupled coils and in claim 5 are the 4 P98 / 20120326 / fh

Variants of the input circuits ld- and If- described with subsequent isolation.

In claim 6, the variants with the input circuit 2-, in claim 7, the associated potential-free variant are described. In claim 8, the variants of the input circuits 2d- and 2f- with the variants of the output circuit with coil in claim 9, the variants of the input circuits 2d- and 2f- with the variants of the output circuit with two other coupled coils and in claim 10 are the Variants of the input circuits 2d- and 2f- described with subsequent isolation.

Fig. 3 shows a combination (type 2v-li) with a smoothing capacitor (C2) at the output. The otherwise designated as (C) capacitor here bears the name (CI). The voltage ratio M can be calculated in continuous operation to U2 1 -d dN {+ N2. If one chooses now the same numbers of turns (thus bifilar windings with small scattering are possible), one obtains the interesting voltage transmission ratio U, d2 2 d2 M = ~ ± = ----- = 2 ---. U2 1 -d d +1 \ -d2

It is useful when using the converter to switch a capacitor or a combination of capacitors parallel to the load at the output of the converter, but it can also be applications where this is not necessary. Therefore, the output capacity has been written to the further claim 12. For the compensation of the lead inductance, a capacitor or a combination of capacitors usually makes sense at the input (claim 13). The coupled coils can be realized as separate windings, which are then connected together, or as a tapped coil (claim 11).

Under certain circumstances, it may also be useful to turn the diodes into bidirectional switches (by antiparallel switching of an active switch). By having e.g. MOSFETs often have very small resistances, so the losses can be reduced compared to a diode, but this requires additional Ansteueraufwand (claim 14). In principle it is also possible to use relief networks to reduce the 5 P98 / 20120326 / fh

Install switching losses or set known measures in the control and the wiring to achieve smooth switching (soft switching) (claim 15).

An interesting application of the subject converters is their use in multi-phase systems, as set out in claim 16. Another interesting application is the combination with a rectifier. This allows the converter to operate as a PFC (Power Factor Corrector). The various converter variants can also serve to drive windings of electrical machines or actuators. Furthermore, the circuit for the operation of bulbs, especially in strong voltage fluctuations, well suited.

In the descriptions of the circuit always the term terminal is used for connection points of the converter with the environment. This does not necessarily have to be a physical terminal, but represents the connection to further circuits. Thus, the converter can be located on a circuit board and the connection takes place directly over the printed circuit board without explicitly existing terminals or connections.

From the point of view of control, the converter can be operated in both continuous and discontinuous modes. The discontinuous operation will occur especially when only weak loads are supplied. Sometimes the control is easier if the circuit is operated in discontinuous operation.

The object to realize a converter with a voltage translation ratio with terms that depend quadratically on the duty cycle, according to the invention is achieved in that

In case 1: between the anode of the first diode (D1) and the negative terminal of the active switch (S), the first (N21) and second winding (N22) is connected to the connection point between the first (N21) and second partial windings (N22 ) is connected to the anode of the third diode (D3), at the cathode of the positive terminal of the load (3), and the negative terminal of the load (4) to the negative terminal of the active switch (S) is connected (1-1 d), or that the connection point between the first (N21) and second partial winding (N22) is connected to the anode of the first diode (Dl), the anode of the third diode (D3) to the first terminal of the first partial winding (N21) and the The third diode (D3) is connected to the positive terminal of the load (3), and the second terminal of the second winding (N22) is connected to the negative terminal of the active switch (S) and to the negative terminal of the load (4) (1-lv), 6 P98 / 20120326 / fh or that between the Anode of the first diode (Dl) and the negative terminal of the load (4), the first (N21) and second winding (N22) is connected to the connection point between the first (N21) and second partial winding (N22), the anode of the third diode ( D3), to the cathode of which the positive terminal of the load (3) and the negative terminal of the active switch (S) is connected (L-2di), or to the anode of the first diode (D1) of the connection point between the first (N21) and the second valley winding (N22), the anode of the third diode (D3) having the first terminal of the first winding (N21), the cathode of the third diode (D3) having the negative terminal of the active switch (S) and the positive terminal Connection of the load (3) is connected and the second terminal of the second winding (N22) to the negative terminal of the load (4) is connected (L-2vi).

In case 2: the first winding (N21) is connected between the anode of the first diode (D1) and the negative terminal of the active switch (S), the cathode of the third diode (D3) is connected to the first terminal of the second partial winding (N22) at the anode of which the negative terminal (4) of the load is connected, and the second terminal of the second partial winding (N22) and the positive terminal of the load (3) are connected. (1-lp)

In case 3: the positive input terminal (1) is connected to the first terminal of the first partial winding (Nil), the cathode of the second diode (D2) is connected to the connection point between the first and second partial windings, to the second terminal of the second partial winding (Nil) NI 2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, whose negative terminal is connected to the negative input terminal (2), to the anode of the second diode (D2) both the cathode of the first Diode (Dl) and the second terminal of the capacitor (C) is connected between the anode of the first diode (Dl) and the negative terminal of the active switch (S), an inductance (L) is connected to the anode of the first diode (Dl) is the anode of the third diode (D3), at the cathode of the positive terminal of the load is connected, and the negative terminal of the load (4) to the negative terminal of the active switch (S) is connected (ld-1 ), or that the positive input terminal (1) is connected to the first terminal of the first partial winding (NI 1) is connected to the connection point between the first and second partial winding, the cathode of the second diode (D2), to the second terminal of the second part Winding (NI 2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, whose negative terminal is connected to the negative input terminal (2), to the anode of the second diode (D2), both the cathode the first diode (Dl) and the second terminal of the capacitor (C) is connected to the anode of the first diode (Dl) the anode of the third 7 P98 / 20120326 / fh

Diode (D3) and one terminal of the coil (L) whose other terminal is connected to the negative terminal of the load (4), and the cathode of the third diode (D3) to the negative terminal of the active switch (S) and is connected to the positive terminal of the load (3) (ld-2i), or that the positive input terminal (1) is connected to the connection point between the first (N21) and second partial winding (N12), to the first terminal of the first partial winding (Nil ) the cathode of the second diode (D2) is connected to the second terminal of the second partial winding (NI 1) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, the negative terminal to the negative input terminal (2), to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected between the anode of the first diode (Dl) and the negative terminal of active Switch (S) an inductance (L) is connected to the anode of the first diode (Dl), the anode of the third diode (D3), at the cathode of the positive terminal (3) of the load is connected, and the negative terminal of the Load (4) is connected to the negative terminal of the active switch (S) (lv-1), or that the positive input terminal (1) is connected to the connection point between the first (Nil) and second partial winding (N12), to the first Connection of the first part winding (Nil), the cathode of the second diode (D2) is connected to the second terminal of the second partial winding (NI2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, the negative Connection to the negative input terminal (2) is connected to the anode of the second diode (D2), both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected to the anode of the first diode (Dl ) the anode of the third diode ( D3) and one terminal of the coil (L) whose other terminal is connected to the negative terminal of the load (4), and the cathode of the third diode (D3) to the negative terminal of the active switch (S) and the positive Connection of the load (3) is connected (lv-2i).

In case 4: the positive input terminal (1) is connected to the first terminal of the first partial winding (Nil), to the connecting track between the first and second partial windings the cathode of the second diode (D2) is connected to the second terminal of the second partial winding (Nil) NI 2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, whose negative terminal is connected to the negative input terminal (2), to the anode of the second diode (D2) both the cathode of the first Diode (Dl) and the second terminal of the capacitor (C) is connected between the anode of the first diode (Dl) and the negative terminal of the active 8 P98 / 20120326 / fh

Switch (S) the third (N21) and fourth winding (N22) is connected, at the connection point between third (N21) and fourth partial winding (N22) the anode of the third diode (D3), at whose cathode the positive terminal of the load ( 3) is connected, and the negative terminal of the load (4) to the negative terminal of the active switch (S) is connected (ld-ld), or that the positive input terminal (1) to the first terminal of the first partial winding (Nil ) is connected to the connection point between the first and second part of the winding, the cathode of the second diode (D2) is connected to the second terminal of the second partial winding (NI2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, whose negative terminal is connected to the negative input terminal (2), to the anode of the second diode (D2), both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected to the anode the first diode (Dl) is the connection point between the third (N21) and fourth partial winding (N22), the anode of the third diode (D3) with the first terminal of the third winding (N21) and the cathode of the third diode (D3) with is connected to the positive terminal of the load (3) and the second terminal of the fourth winding (N22) is connected to the negative terminal of the active switch (S) and to the negative terminal of the load (4) (ld-lv), or the positive input terminal (1) is connected to the first terminal of the first partial winding (Nil), the cathode of the second diode (D2) is connected to the connection point between the first and second partial windings, and a terminal to the second terminal of the second partial winding (NI2) of the capacitor (C) and the positive terminal of the active switch (S) whose negative terminal is connected to the negative input terminal (2), to the anode of the second diode (D2) both the cathode of the first one Diode (Dl) and the second terminal of the capacitor (C) is connected between the anode of the first diode (Dl) and the negative terminal of the load (4), the third (N21) and fourth winding (N22) is connected to the connection point between third (N21) and fourth partial winding (N22) is the anode of the third diode (D3), at the cathode of which the positive terminal of the load (3) and the negative terminal of the active switch (S) are connected (ld-2di) or that the positive input cycles (1) is connected to the first terminal of the first partial winding (Nil), to the connection point between the first and second partial windings the cathode of the second diode (D2) is connected to the second terminal of the second partial winding ( NI 2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, whose negative terminal is connected to the negative input terminal (2), to the anode of the second diode (D2) is 9 P98 / 20120326 / fh both the Cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected to the anode of the first diode (Dl), the connection point between the third (N21) and fourth partial winding (N22) is connected, the anode of the third diode (D3) is connected to the first terminal of the third winding (N21), the cathode of the third diode (D3) to the negative terminal of the active switch (S) and to the positive terminal of the load (3) and the second terminal of the fourth Winding (N22) is connected to the negative terminal of the load (4) (ld-2vi), or that the positive Eingangsklermne (1) is connected to the connection point between the first and second partial winding, to the first terminal of the first partial winding (NI ) the cathode of the second diode (D2) is connected, to the second terminal of the second partial winding (NI2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, whose negative terminal connected to the is connected to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C), between the anode of the first diode (Dl) and the negative terminal of the active switch (S), the third (N21) and fourth winding (N22) is connected to the connection point between the third (N21) and fourth partial winding (N22) the anode of the third diode (D3), at the cathode of the positive Connection of the load (3) is connected, and the negative terminal of the load (4) to the negative terminal of the active switch (S) is connected (lv-2d), or that the positive input terminal (1) to the connection point between the first is connected to the first terminal of the first partial winding (Nil), the cathode of the second diode (D2), to the second terminal of the second partial winding (N12) one terminal of the capacitor (C) and the positive terminal of the akti Switch (S) is connected, whose negative terminal is connected to the negative input terminal (2), connected to the anode of the second diode (D2), both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) in that the anode of the first diode (D1) is connected to the junction between the third (N21) and fourth partial windings (N22), the anode of the third diode (D3) to the first terminal of the third winding (N21) and the cathode of the third diode (D3) is connected to the positive terminal of the load (3) and the second terminal of the fourth winding (N22) is connected to the negative terminal of the active switch (S) and to the negative terminal of the load (4) (lv-lv ), or that the positive output terminal (1) is connected to the connection point between the first and second partial windings, to the first terminal of the first part winding (NI 1), the cathode of the second diode (D2) is connected to the second terminal of the second Te winding (NI 2) 10 P98 / 20120326 / fh

Connection of the capacitor (C) and the positive terminal of the active switch (S) is connected, whose negative terminal is connected to the negative input terminal (2), to the anode of the second diode (D2) both the cathode of the first diode (Dl) is connected as well as the second terminal of the capacitor (C), between the anode of the first diode (Dl) and the negative terminal of the load (4), the third (N21) and fourth winding (N22) is connected to the connection point between the third (N21) and fourth part winding (N22) the anode of the third diode (D3), at the cathode of the positive terminal of the load (3) and the negative terminal of the active switch (S) is connected (1 v-2di), or the positive input terminal (1) is connected to the connection point between the first and second partial windings, the cathode of the second diode (D2) is connected to the first terminal of the first partial winding (NI 1), to the second terminal of the second partial winding (NI 2 ) an A is connected to the capacitor of the capacitor (C) and the positive terminal of the active switch (S) whose negative terminal is connected to the negative input terminal (2), to the anode of the second diode (D2) both the cathode of the first diode (Dl) is connected as well as the second terminal of the capacitor (C) is connected to the anode of the first diode (Dl), the connection point between the third (N21) and fourth part winding (N22), the anode of the third diode (D3) with the first Connecting the third winding (N21), the cathode of the third diode (D3) to the negative terminal of the active switch (S) and to the positive terminal of the load (3) and the second terminal of the fourth winding (N22) to the negative connection of the load (4) is connected (lv-2vi).

In case 5: the positive input terminal (1) is connected to the first terminal of the first partial winding (Nil), the cathode of the second diode (D2) is connected to the connection point between the first and second partial windings, to the second terminal of the second partial winding (Nil) NI2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, whose negative terminal is connected to the negative input terminal (2), to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected between the anode of the first diode (Dl) and the negative terminal of the active switch (S), the third winding (N21) is connected to the first terminal of the fourth Partial winding (N22), the cathode of the third diode (D3), at the anode of the negative terminal of the load (4) is connected, and the second terminal of the fourth part winding (N22) and the positive terminal of the Load (3) are connected (ld-lp), or that the positive input terminal (1) is connected to the connection point between the first and second partial winding 11 P98 / 20120326 / fh, to the first terminal of the first partial winding (NI 1), the cathode is connected to the second terminal of the second partial winding (NI2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) whose negative terminal is connected to the negative input terminal (2) is, to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, between the anode of the first diode (Dl) and the negative terminal of the active switch ( S) the third (N21) is connected to the first terminal of the fourth partial winding (N22), the cathode of the third diode (D3), at the anode of the negative terminal of the load (4) is connected, and the second terminal of the fourth partly winding (N22) and the positive terminal of the load (3) are connected (lv-lp).

In case 6: between the anode of the first diode (D1) and the negative terminal of the active switch (S) the first (N21) and second winding (N22) is connected to the connection point between the second (N21) and third partial windings ( N22), the cathode of the third diode (D3), at the anode of the negative terminal (4) of the load is connected, and the positive terminal of the load (3) to the cathode of the first diode (Dl) is connected (2-1 di), or in that the connection terminal between the first (N21) and second partial winding (N22) is connected to the negative terminal of the active switch (S), the cathode of the third diode (D3) is connected to the first terminal of the first winding (N21) and the anode of the third diode (D3) is connected to the negative terminal of the load (4), and the second terminal of the second winding (N22) is connected to the anode of the first diode (D1) and to the positive terminal of the load (3) (2-1 vi), or that between the negative terminal of the active Switch (S) and the positive terminal of the load (3) the first (N21) and second winding (N22) is connected, at the connection point between the first (N21) and second partial winding (N22) the cathode of the third diode (D3), at the anode, the negative terminal of the load (4) and the cathode of the first diode (Dl) is connected (2-2d), or that the connection point between the first (N21) and second partial winding to the negative terminal of the active switch (S) (N22), the cathode of the third diode (D3) with the first terminal of the first winding (N21), the anode of the third diode (D3) with the anode of the first diode (Dl) and with the negative terminal of the load ( 4) and the second terminal of the second winding (N22) is connected to the positive terminal of the load (3) (2-2v).

In case 7: between the cathode of the first diode (Dl) and the negative terminal of the active switch (S), the first winding (NI) is connected to the first terminal of the second P98 / 20120326 / fh second part winding (N2) the cathode the third diode (D3), at whose anode the negative terminal of the load (4) is connected, is connected and the second terminal of the second partial winding (N22) and the positive terminal of the load (3) are connected. (2-lp)

In case 8: the positive input terminal (1) is connected to the first terminal of the first partial winding (NI), the cathode of the second diode (D2) is connected to the connection point between the first and second partial windings, to the second terminal of the second partial winding (NI). N2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, the cathode of the first diode (Dl) is connected to the negative input terminal (2), between the cathode of the first diode (Dl) and the negative terminal of the active switch (S) an inductance (L) is connected to the negative terminal of the active switch (S) the cathode of the third diode (D3), at whose anode the negative terminal da " Load (4) is connected, and the positive terminal of the load (3) to the anode of the first diode (Dl) is connected (2d-li), or that the positive input terminal (1) to the first terminal of the first partial winding ( NI), to the connection point between the first and second part of the winding, the cathode of the second diode (D2) is connected to the second terminal of the second partial winding (N2) one terminal of the capacitor (C) and the positive terminal of the active switch (S ) is connected to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, the cathode of the first diode (Dl) with the negative input terminal (2) is connected to the negative terminal of the active switch (S), both the cathode of the third diode (D3) and a terminal of the coil (L) whose second terminal is connected to the positive (3) output terminal, and the anode the third (D3) Diode is connected to the anode of the first diode (D1) and the negative output terminal (4) (2d-2), or that the positive input terminal (1) is connected to the connection point between the first (NI l) and second (NI2) partial winding in that the cathode of the second diode (D2) is connected to the first terminal of the first partial winding (NI 1), one terminal of the capacitor (C) to the second terminal of the second partial winding (NI2) and the positive terminal of the active switch (S) is connected to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, the anode of the first diode (Dl) connected to the negative input terminal (2) is connected between the cathode of the first diode (D1) and the negative terminal of the active switch (S), an inductance (L) is connected to 13 P98 / 20120326 / £ h • · · · * * ♦ »♦ · ··· · ♦ * ♦ * * «« «♦♦ · · * Μ # *« Φ ♦♦ * · ·· ♦ · en n negative terminal of the active switch (S), the cathode of the third diode (D3), at the anode of the negative terminal of the load (4) is connected, and the positive terminal of the load (3) to the anode of the first diode (Dl ) is connected (2v-li), or that the positive input terminal (1) is connected to the connection point between the first (NI l) and second (NI2) partial winding, to the first terminal of the first partial winding (N11), the cathode of the second diode (D2) is connected to the second terminal of the second partial winding (NI2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected to the anode of the second diode (D2) both the cathode of the first Diode (Dl) and the second terminal of the capacitor (C) is connected, the anode of the first diode (Dl) to the negative input terminal (2) is connected to the negative terminal of the active switch (S), both the cathode of the third Diode (D3) as well as a connector s of the coil (L) whose second terminal is connected to the positive (3) output terminal, and the anode of the third (D3) diode is connected to the anode of the first diode (D1) and the negative output terminal (4) ( 2v-2).

In case 9: the positive input terminal (1) is connected to the first terminal of the first partial winding (NI), the cathode of the second diode (D2) is connected to the connection point between the first and second partial windings, to the second terminal of the second partial winding (NI) N2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, the cathode of the first diode (Dl) is connected to the negative input terminal (2), between the anode of the first diode (Dl) and the negative terminal of the active switch (S) the third (N21) and fourth winding (N22 ) is connected to the connection point between the third (N21) and fourth partial winding (N22), the cathode of the third diode (D3), at the anode of the negative terminal (4) of the load is connected, and the positive terminal of the load (3 mi t is the cathode of the first diode (Dl) is connected (2d-ldi), or that the positive input terminal (1) is connected to the first terminal of the first partial winding (NI), at the connection point between the first and second partial winding, the cathode of the second Is connected to the second terminal of the second partial winding (N2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected to the anode of the second diode (D2) both the cathode of the the first diode (Dl) and the second terminal of the capacitor (C) is connected, the cathode of the first diode (Dl) to the negative input terminal (2) is connected to the negative terminal of the active switch (S), the connection point 14 P98 / 20120326 / fh is connected between the third (N21) and fourth (N22) winding, the cathode of the third diode (D3) with the first terminal of the third winding (N21) and the anode of the third diode (D3) with the negative terminal of Load (4) is connected and the second terminal of the fourth winding (N22) to the anode of the first diode (Dl) and to the positive terminal of the load (3) is connected (2d-lvi), or that the positive output terminal (1) is connected to the first terminal of the first partial winding (NI) is connected to the connection point between the first and second partial winding, the cathode of the second diode (D2), to the second terminal of the second partial winding (N2) is a terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, the cathode of the first diode (Dl ) is connected to the negative input terminal (2), between the negative terminal of the active switch (S) and the positive terminal of the load (3) the third (N21) and fourth winding (N22) is connected, to the connection point between third ( N21) and fourth sub-winding (N22) the cathode of the third diode (D3), at the anode of the negative terminal of the load (4) and the cathode of the first diode (Dl) is connected (2d-2d), or that the positive input terminal (1) is connected to the first terminal of the first partial winding (NI) is connected to the connection point between the first and second partial winding, the cathode of the second diode (D2), to the second terminal of the second partial winding (N2) is a terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, the cathode of the first diode (Dl ) is connected to the negative input terminal (2), to the negative terminal of the active switch (S) the connection point between the third (N21) and fourth partial winding (N22) is connected, the cathode of the third diode (D3) to the first terminal ofthird winding (N21), the anode of the third diode (D3) is connected to the anode of the first diode (Dl) and to the negative terminal of the load (4) and the second terminal of the fourth winding (N22) to the positive terminal of Load (3) is connected (2d-2v), or that the positive input terminal (1) is connected to the connection point between the first (Nil) and second (NI 2) partial winding, to the first terminal of the first partial winding (NI 1) Cathode of the second diode (D2) is connected to the second terminal of the second partial winding (N12) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected to the anode of the second diode (D2) both The cathode of the first diode (Dl) and the second terminal of the P98 / 20120326 / Ö1 ♦ ························································································································································································································ * 99

Capacitor (C) is connected, the anode of the first diode (Dl) to the negative input terminal (2) is connected, between the anode of the first diode (Dl) and the negative terminal of the active switch (S) the third (N21) and fourth winding (N22) is connected, at the connection point between the third (N21) and fourth partial winding (N22), the cathode of the third diode (D3), at the anode of the negative terminal (4) of the load is connected, and the positive terminal the load (3) is connected to the cathode of the first diode (Dl) (2v-ldi), or that the positive input terminal (1) is connected to the connection point between the first (Nil) and second (NI 2) partial windings, to the first terminal of the first part winding (NI 1), the cathode of the second diode (D2) is connected to the second terminal of the second part winding (NI 2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) connected is to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, the anode of the first diode (Dl) is connected to the negative input terminal (2), to the negative terminal of the active switch (S) the connection point between the third (N21) and fourth part-winding (N22) is connected, the cathode of the third diode (D3) with the first terminal of the third winding (N21) and the anode of the third diode (D3) with the negative terminal of the load ( 4) and the second terminal of the fourth winding (N22) is connected to the anode of the first diode (D1) and to the positive terminal of the load (3) (2v-lvi), or that the positive input terminal (1) to the connection point between the first (NI 1) and second (NI 2) partial winding is connected, to the first terminal of the first partial winding (NI 1) the cathode of the second diode (D 2) is connected to the second terminal of the second partial winding (N 12) a connection of the capacitor s (C) and the positive terminal of the active switch (S) is connected to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, the anode between the negative terminal of the active switch (S) and the positive terminal of the load (3), the third (N21) and fourth winding (N22) are connected to the first diode (D1) connected to the negative input terminal (2) Connection point between the third (N21) and fourth partial winding (N22), the cathode of the third diode (D3), at the anode of the negative terminal of the load (4) and the anode of the first diode (Dl) is connected (2v-2d), or in that the positive input terminal (1) is connected to the connection point between the first (NI 1) and second (N12) partial winding, to the first terminal of the first partial winding (NI 1) the cathode of the second diode (D 2) is connected to the second Connection of the second partial winding (NI 2) a connection d it 16 P98 / 20120326 / fh

Capacitor (C) and the positive terminal of the active switch (S) is connected to the anode of the second diode (D2), both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, the anode the first diode (D1) is connected to the negative input terminal (2), to the negative terminal of the active switch (S) the connection point between third (N21) and fourth partial winding (N22) is connected, the cathode of the third diode (D3) to the first terminal of the third winding (N21), the anode of the third diode (D3) to the anode of the first diode (D1) and to the negative terminal of the load (4), and the second terminal of the fourth winding (N22) connected to the positive terminal of the load (3) (2v-2v).

In case 10: the positive input terminal (1) is connected to the first terminal of the first partial winding (NI), to the connection point between the first and second partial winding the cathode of the second diode (D2) is connected to the second terminal of the second partial winding (NI) N2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, the cathode of the first diode (Dl) is connected to the negative input terminal (2), between the anode of the first diode (Dl) and the negative terminal of the active switch (S), the third winding (N21) is connected to the first terminal of the fourth partial winding (N22) is connected to the cathode of the third diode (D3), at the anode of which the negative terminal of the load (4) is connected, and the second terminal of the fourth partial winding (N22) and the positive terminal ss of the load (3) are connected (2d-lp) or that the positive input terminal (1) is connected to the connection point between the first (Nll) and second (N12) partial winding, to the first terminal of the first partial winding (NI 1) Cathode of the second diode (D2) is connected to the second terminal of the second partial winding (NI2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected to the anode of the second diode (D2) both the cathode of the first diode (D1) and the second terminal of the capacitor (C) is connected, the anode of the first diode (D1) is connected to the negative input terminal (2), between the anode of the first diode (D1) and negative terminal of the active switch (S), the third (N21) is connected to the first terminal of the fourth partial winding (N22) the cathode of the third diode (D3), at the anode of the negative terminal of the load (4) is connected and the second port of the fourth Teilw winding (N22) and the positive terminal of the load (3) are connected. (2v-lp)

Furthermore, the following statements apply to all converters: 17 P98 / 20120326 / fh ♦ · ♦ ·

• · · * ··································· •

I • o

The coupled windings (NI 1, NI2 or N21, N22) can also be designed in each case as a coil with a tap between the partial windings, if they are connected in series, that a capacitor or a combination of capacitors is connected in parallel to the output terminals, also that a capacitor or a combination of capacitors is connected in parallel to the output terminals. Furthermore, one or more diodes are bypassed by an active switch and also one or more electronic switches are provided with snubber networks or with relieved switching devices. The converters can form phases of a polyphase inverter. It can also be connected in front of the converter, a rectifier. As a load and bulbs are possible. It should also be noted that the term input and output terminal is generally for the input terminal and output terminal. 18 P98 / 20120326 / fh

Claims (19)

················································································································································································································ 1. A converter consisting of a first (N21) and a second (N22) coupled winding connected in series, a first (D1), a second (D2), a third (D1) D3) diode, a capacitor (C), a coil (L) of a positive (1) and a negative (2) input terminal, between which the input voltage is connected, a positive (3) and a negative (4) output terminal, between which the load is connected and an active switch (S) with associated control, wherein the positive input terminal (1) with one terminal of the coil (L) and with the cathode of the second diode (D2) is connected to the second terminal of the coil ( L) is connected one terminal of the capacitor (C) and the positive terminal of the active switch (S) whose negative terminal is connected to the negative input terminal (2) and to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second Anschlu ss of the capacitor (C) is characterized in that between the anode of the first diode (Dl) and the negative terminal of the active switch (S), the first (N21) and second winding (N22) is connected to the connection point between the first (N21) and second part winding (N22) is the anode of the third diode (D3), at the cathode of the positive terminal of the load (3) is connected, and the negative terminal of the load (4) to the negative terminal of the active switch ( S) is connected (1-1 d), or in that the connection point between the first (N21) and second partial winding (N22) is connected to the anode of the first diode (Dl), the anode of the third diode (D3) to the first terminal the first part winding (N21) and the cathode of the third diode (D3) are connected to the positive terminal of the load (3), and the second terminal of the second winding (N22) is connected to the negative terminal of the active switch (S) and to the negative terminal Connecting the load (4) verbun that is (1-lv), or that between the anode of the first diode (Dl) and the negative terminal of the load (4), the first (N21) and second winding (N22) is connected to the connection point between the first (N21) and second partial winding (N22) the anode of the third diode (D3), at the cathode of the positive terminal of the load (3) and the negative terminal of the active switch (S) is connected (L-2di), or that the anode of the the first diode (D1) is connected to the connection point between the first (N21) and second partial winding (N22), the anode of the third diode (D3) to the first terminal of the first winding (N21), the cathode of the third diode (D3) to the negative terminal of the active switch (S) and connected to the positive terminal of the load (3) and the second terminal of the second winding (N22) to the negative terminal of the load (4) is connected (L-2vi). 19 P98 / 20120326 / fh I 2. converter comprising a first (N21) and a second (N22) coupled winding, a first (D1), a second (D2), a third (D3) diode, a capacitor (C), a coil (L) , a positive (1) and a negative (2) input terminal between which the input voltage is connected, a positive (3) and a negative (4) output terminal between which the load is connected and an active switch (S) with associated control , wherein the positive input terminal (1) is connected to one terminal of the coil (L) and to the cathode of the second diode (D2), to the second terminal of the coil (L) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, whose negative terminal is connected to the negative input terminal (2) and connected to the anode of the second diode (D2), both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is characterized in that between the anode of the first diode (D1) and the negative terminal of the active switch (S) the first winding (N21) is connected, to the first terminal of the second partial winding (N22) the cathode of the third diode (D3), at the anode thereof the negative terminal (4) of the load is connected, and the second terminal of the second partial winding (N22) and the positive terminal of the load (3) are connected. (1-ip) 3. converter, consisting of a first (Nil) and a second (N12) coupled winding, which are connected in series, a first (Dl), a second (D2), a third (D3) diode, a capacitor (C) , a coil (L), a positive (1) and a negative (2) input terminal between which the input voltage is connected, a positive (3) and a negative (4) output terminal between which the load is connected and an active (2) input terminal. S) switch with associated control, characterized in that the positive input terminal (1) is connected to the first terminal of the first partial winding (NIL) is connected to the connection point between the first and second partial winding, the cathode of the second diode (D2), to the second terminal of the second partial winding (NI2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, whose negative terminal is connected to the negative input terminal (2), to the Ano de the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, between the anode of the first diode (Dl) and the negative terminal of the active switch (S) has an inductance (L) is connected to the anode of the first diode (Dl), the anode of the third diode (D3), at the cathode of the positive terminal of the load is connected, and the negative terminal of the load (4) to the negative terminal of the 20 P98 / 20120326 / fh {I active switch (S) is connected (ld-1), or that the positive Eingangskleimne (1) is connected to the first terminal of the first partial winding (Nil), to the connection point between the first and second partial winding the cathode of the second diode (D2) is connected, to the second terminal of the second partial winding (NI 2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, the negative terminal to the negative input terminal (2) is connected to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected to the anode of the first diode (Dl) the anode of the third Diode (D3) and one terminal of the coil (L) whose other terminal is connected to the negative terminal of the load (4), and the cathode of the third diode (D3) to the negative terminal of the active switch (S) and is connected to the positive terminal of the load (3) (ld-2i), or that the positive input terminal (1) is connected to the connection point between the first (N21) and second partial winding (N12), to the first terminal of the first partial winding (NI 1), the cathode of the second diode (D2) is connected to the second terminal of the second partial winding (NI 1) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, the negative terminal to the negative Input terminal (2) is connected to the anode of the second diode (D2) is connected both the cathode of the first diode (D1) and the second terminal of the capacitor (C), between the anode of the first diode (D1) and the negative terminal of the active switch (S) Inductance (L) is connected to the anode of the first diode (Dl), the anode of the third diode (D3), at the cathode of the positive terminal (3) of the load is connected, and the negative terminal of the load (4) with is connected to the negative terminal of the active switch (S) (lv-1), or that the positive input terminal (1) is connected to the connection point between the first (Nil) and second partial winding (N12), to the first terminal of the first partial winding ( NI 1) the cathode of the second diode (D2) is connected to the second terminal of the second partial winding (NI2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, the negative terminal to the negative Input terminal (2) is connected to the anode of the second diode (D2), both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected to the anode of the first diode (Dl), the anode of the third diode (D3 ) and one terminal of the coil (L) whose other terminal is connected to the negative terminal of the load (4), and the cathode of the third diode (D3) to the negative terminal of the active switch (S) and the positive terminal the load (3) is connected (lv-2i). 21 P98 / 20120326 / fh • · ϊ · »· < ·· < ·· * · · «. 4 ♦ • 4 4 4 4 4 4 · 4 4 »44 · 4444 44 444 4. converter, consisting of a first (NI 1) and a second (N12) magnetically coupled winding, which are connected in series, a first (Dl), a second (D2), a third (D3) diode, a capacitor ( C), a third (N21) and a fourth (N22) magnetically coupled winding connected in series, one positive (1) and one negative (2) input terminal between which the input voltage is turned on, a positive one (3) and a negative (4) output terminal, between which the load is connected and an active (S) switch with associated drive, characterized in that the positive input terminal (1) is connected to the first terminal of the first partial winding (Nil), to the connection point between first and second part of the winding, the cathode of the second diode (D2) is connected to the second terminal of the second part winding (NI 2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) ges is switched, whose negative terminal is connected to the negative input terminal (2), to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, between the anode the first diode (D1) and the negative terminal of the active switch (S) the third (N21) and fourth winding (N22) is connected, at the connection point between the third (N21) and fourth partial winding (N22) the anode of the third diode ( D3) whose cathode is the positive terminal of the load (3) is connected, and the negative terminal of the load (4) to the negative terminal of the active switch (S) is connected (ld-ld), or that the positive input terminal (1) is connected to the first terminal of the first partial winding (Nil) is connected to the connection point between the first and second partial winding, the cathode of the second diode (D2), to the second terminal of the second partial winding (NI 2) a terminal of the Kon capacitor (C) and the positive terminal of the active switch (S) whose negative terminal is connected to the negative input terminal (2), to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, to the anode of the first diode (Dl) the connection point between the third (N21) and fourth partial winding (N22) is connected, the anode of the third diode (D3) to the first terminal of the third Winding (N21) and the cathode of the third diode (D3) is connected to the positive terminal of the load (3), and the second terminal of the fourth winding (N22) is connected to the negative terminal of the active switch (S) and to the negative terminal of the Load (4) is connected (ld-lv), or that the positive input terminal (1) is connected to the first terminal of the first partial winding (Nil), at the connection point between the first and second partial winding, the cathode of the second 22 P98 / 201203 26 / fh *··········································································································································································································································· active switch (S) is connected, whose negative terminal is connected to the negative input terminal (2), connected to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is between the anode of the first diode (Dl) and the negative terminal of the load (4), the third (N21) and fourth winding (N22) is connected, at the connection point between the third (N21) and fourth partial winding (N22), the anode the third diode (D3), at the cathode of which the positive terminal of the load (3) and the negative terminal of the active switch (S) is connected (ld-2di), or in that the positive input terminal (1) is connected to the first terminal of the first Partial winding (NI 1) is connected to the connection point between the first and the second part winding, the cathode of the second diode (D2) is connected to the second terminal of the second partial winding (NI2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, the negative terminal to the negative Input terminal (2) is connected to the anode of the second diode (D2), both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected to the anode of the first diode (Dl) of the Verbindungspurikt between the third (N21) and fourth partial winding (N22), the anode of the third diode (D3) with the first terminal of the third winding (N21), the cathode of the third diode (D3) with the negative terminal of the active switch (S ) is connected to the positive terminal of the load (3) and the second terminal of the fourth winding (N22) is connected to the negative terminal of the load (4) (ld-2vi), or that the positive input terminal (1) to the connection is connected between the first and second partial windings, the cathode of the second diode (D2) is connected to the first terminal of the first partial winding (NI 1), a terminal of the capacitor (C) is connected to the second terminal of the second partial winding (NI 2) and the positive terminal of the active switch (S) whose negative terminal is connected to the negative input terminal (2) is connected to the anode of the second diode (D2) both the cathode of the first diode (D1) and the second terminal of the second diode Capacitor (C) is connected between the anode of the first diode (Dl) and the negative terminal of the active switch (S), the third (N21) and fourth winding (N22) is connected to the connection point between the third (N21) and fourth Partial winding (N22) is the anode of the third diode (D3), at the cathode of the positive terminal of the load (3) is connected, and the negative terminal of the load (4) connected to the negative terminal of the active switch (S) is (lv-2d), or that the positive input terminal (1) at 23 P98 / 20120326 / fh the connection point between the first and second part winding is connected to the first terminal of the first partial winding (NI 1), the cathode of the second diode (D2 ) is connected to the second terminal of the second partial winding (NI 2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) whose negative terminal is connected to the negative input terminal (2) to which Anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) connected to the anode of the first diode (Dl) the connection point between the third (N21) and fourth partial winding (N22) is connected, the anode of the third diode (D3) to the first terminal of the third winding (N21) and the cathode of the third diode (D3) to the positive terminal of the load (3) and the second terminal of the fourth winding (N22 ) is connected to the negative terminal of the active switch (S) and to the negative terminal of the load (4) (lv-1 v), or that the positive input terminal (1) is connected to the connection point between the first and second partial windings, to the first terminal of the first part winding (NI 1), the cathode of the second diode (D2) is connected to the second terminal of the second partial winding (NI2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected whose negative terminal is connected to the negative input terminal (2), to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected between the anode of the first Diode (D1) and the negative terminal of the load (4) the third (N21) and fourth winding (N22) is connected, at the connection point between the third (N21) and fourth partial winding (N22) the anode of the third diode (D3), at the Ka method, the positive terminal of the load (3) and the negative terminal of the active switch (S) is connected (lv-2di), or that the positive input terminal (1) is connected to the connection point between the first and second partial windings, to the first terminal the first part winding (NI 1), the cathode of the second diode (D2) is connected to the second terminal of the second partial winding (N12) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, the negative Connection to the negative input terminal (2) is connected to the anode of the second diode (D2), both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected to the anode of the first diode (Dl ) the connection point between the third (N21) and fourth partial winding (N22) is connected, the anode of the third diode (D3) with the first terminal of the third winding (N21), the cathode of the third diode (D3) with the negative An terminal of the active switch (S) and connected to the positive terminal of the load 24 P98 / 20120326 / fh (3), and the second terminal of the fourth winding (N22) is connected to the negative terminal of the load (4) (lv-2vi ). 5. Converter consisting of a first (Nil) and a second (NI2) magnetically coupled winding, which are connected in series, a first (Dl), a second (D2), a third (D3) diode, a capacitor (C ), a third (N21) and a fourth (N22) magnetically coupled winding, a positive (1) and a negative (2) input terminal, between which the input voltage is connected, a positive (3) and a negative (4) Ausgangsdemdemme, between which the load is connected and an active (S) switch with associated drive, characterized in that the positive input terminal (1) is connected to the first terminal of the first partial winding (NI 1), to the connection point between the first and second partial winding, the cathode the second diode (D2) is connected to the second terminal of the second partial winding (NI2), a terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, the negative An is connected to the negative input terminal (2), to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected between the anode of the first diode (Dl ) and the negative terminal of the active switch (S), the third winding (N21) is connected to the first terminal of the fourth partial winding (N22), the cathode of the third diode (D3), at the anode of the negative terminal of the load (4) is connected, and the second terminal of the fourth partial winding (N22) and the positive terminal of the load (3) are connected (ld-lp), or that the positive input terminal (1) is connected to the connection point between the first and second partial windings, to the first terminal of the first partial winding (NI 1), the cathode of the second diode (D2) is connected to the second terminal of the second partial winding (NI2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) ge is switched, whose negative terminal is connected to the negative input terminal (2), to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, between the anode the first diode (D1) and the negative terminal of the active switch (S), the third (N21) is connected to the first terminal of the fourth partial winding (N22), the cathode of the third diode (D3), at whose anode the negative terminal of the Load (4) is connected, and the second terminal of the fourth partial winding (N22) and the positive terminal of the load (3) are connected (lv-lp). 25 P98 / 20120326 / fh 6. converter consisting of a first (NI) and a second (N2) coupled winding which are connected in series, a first (Dl), a second (D2), a third (D3) diode, a capacitor (C) , a coil (L), a positive (1) and a negative (2) input terminal between which the input voltage is connected, a positive (3) and a negative (4) output terminal between which the load is connected and an active switch (S) with associated control, wherein the positive input terminal (1) is connected to one terminal of the coil (L) and to the cathode of the second diode (D2), to the second terminal of the coil (L) is a terminal of the capacitor (C ) and the positive terminal of the active switch (S) is connected and to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected and the anode of the first diode (Dl) connected to the negative input terminal (2) that is characterized in that between the anode of the first diode (Dl) and the negative terminal of the active switch (S), the first (N21) and second winding (N22) is connected to the connection point between the second (N21) and third Partial winding (N22), the cathode of the third diode (D3), at the anode of the negative terminal (4) of the load is connected, and the positive terminal of the load (3) to the cathode of the first diode (Dl) is connected (2 -ldi), or that the connection point between the first (N21) and second partial winding (N22) is connected to the negative terminal of the active switch (S), the cathode of the third diode (D3) is connected to the first terminal of the first winding (N21) and the anode of the third diode (D3) is connected to the negative terminal of the load (4) and the second terminal of the second winding (N22) is connected to the anode of the first diode (D1) and to the positive terminal of the load (3) is (2-1 vi), or that between the negative Connecting the active switch (S) and the positive terminal of the load (3), the first (N21) and second winding (N22) is connected, at the connection point between the first (N21) and second partial winding (N22), the cathode of the third diode (D3), at the anode of the negative terminal of the load (4) and the cathode of the first diode (Dl) is connected (2-2d), or in that the negative terminal of the active switch (S), the connection point between the first (N21 ) and the second partial winding (N22), the cathode of the third diode (D3) with the first terminal of the first winding (N21), the anode of the third diode (D3) with the anode of the first diode (Dl) and with the negative Terminal of the load (4) is connected and the second terminal of the second winding (N22) is connected to the positive terminal of the load (3) (2-2v). 26 P98 / 20120326 / fh • » 7. converter consisting of a first (NI) and a second (N2) coupled winding connected in series, a first (Dl), a second (D2), a third (D3) diode, a capacitor (C) , a coil (L), a positive (1) and a negative (2) input terminal between which the input voltage is connected, a positive (3) and a negative (4) output terminal between which the load is connected and an active switch (S) with associated control, wherein the positive input terminal (1) is connected to one terminal of the coil (L) and to the cathode of the second diode (D2), to the second terminal of the coil (L) is a terminal of the capacitor (C ) and the positive terminal of the active switch (S) is connected and to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected and the anode of the first diode (Dl) with the negative input terminal (2) verbu Nden is characterized in that between the cathode of the first diode (Dl) and the negative terminal of the active switch (S), the first winding (NI) is connected to the first terminal of the second part winding (N2) the cathode of the third diode (D3), at the anode of the negative terminal of the load (4) is connected, and the second terminal of the second partial winding (N22) and the positive terminal of the load (3) are connected. (2-lp) 8. converter, consisting of a first (NI) and a second (N2) coupled winding, which are connected in series, a first (Dl), a second (D2), a third (D3) diode, a capacitor (C) , a coil (L), a positive (1) and a negative (2) input terminal, between which the input voltage is switched on, a positive (3) and a negative (4) output terminal, between which the load is switched on and an active ( S) switch with associated control, characterized in that the positive input terminal (1) is connected to the first terminal of the first partial winding (NI) is connected to the connection point between the first and second partial winding, the cathode of the second diode (D2), to the second terminal of the second partial winding (N2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the two te connection of the capacitor (C) is connected, the cathode of the first diode (Dl) to the negative input terminal (2) is connected, between the cathode of the first diode (Dl) and the negative terminal of the active switch (S) has an inductance ( L) is connected to the negative terminal of the active switch (S), the cathode of the third diode (D3), at the anode of the negative terminal of the load (4) is connected, and the positive terminal of the load (3) with the Anode of the first 27 P98 / 20120326 / & Diode (Dl) is connected (2d-li), or that the positive input terminal (1) is connected to the first terminal of the first Teilwicldung (NI) connected to the connection point between the first and second partial winding, the cathode of the second diode (D2) is connected to the second terminal of the second partial winding (N2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected to the anode of the second diode (D2) both the cathode of the first diode (Dl) as well as the second terminal of the capacitor (C) is connected, the cathode of the first diode (Dl) is connected to the negative input terminal (2), to the negative terminal of the active switch (S) both the cathode of the third diode (D3) and one terminal of the coil (L) whose second terminal is connected to the positive (3) output terminal, and the anode of the third (D3) diode is connected to the anode of the first diode (D1) and the negative output terminal (4) is connected (2 d-2), or that the positive input terminal (1) is connected to the connection point between the first (NI l) and second (N12) partial windings, to the first terminal of the first partial winding (NI 1) the cathode of the second diode (D2) is connected to the second terminal of the second partial winding (NI2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected to the anode of the second diode (D2) both the cathode of the first diode (Dl ) and the second terminal of the capacitor (C) is connected, the anode of the first diode (Dl) to the negative input terminal (2) is connected between the cathode of the first diode (Dl) and the negative terminal of the active switch (S ) an inductance (L) is connected to the negative terminal of the active switch (S), the cathode of the third diode (D3), at the anode of the negative terminal of the load (4) is connected, and the positive terminal of the load ( 3) with the anode of the first di or (Dl) is connected (2v-li), or that the positive input terminal (1) is connected to the connection point between the first (NI l) and second (NI2) partial winding, to the first terminal of the first partial winding (NI 1) Cathode of the second diode (D2) is connected to the second terminal of the second partial winding (NI2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, the anode of the first diode (Dl) to the negative input terminal (2) is connected to the negative terminal of the active switch (S) both the cathode of the third diode (D3) and a terminal of the coil (L) whose second terminal is connected to the positive (3) output terminal, and the anode of the third (D3) diode to the anode of the first diode (Dl ) and the negative output terminal (4) verbu nd is (2v-2). 28 P98 / 20120326 / fh 9. converter, consisting of a first (Nil) and a second (NI 2) magnetically coupled winding, which are connected in series, a first (Dl), a second (D2), a third (D3) diode, a capacitor ( C), a third (N21) and a fourth (N22) magnetically coupled winding connected in series, one positive (1) and one negative (2) input terminal between which the input voltage is turned on, a positive one (3) and a negative (4) output terminal, between which the load is connected and an active (S) switch with associated drive, characterized in that the positive input terminal (1) is connected to the first terminal of the first partial winding (NI), to the connection point between first and second part winding the cathode of the second diode (D2) is connected to the second terminal of the second partial winding (N2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) gescha Ltet is, to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, the cathode of the first diode (Dl) connected to the negative input terminal (2) is connected between the anode of the first diode (Dl) and the negative terminal of the active switch (S) the third (N21) and fourth winding (N22) is connected to the connection point between the third (N21) and fourth partial winding (N22) Cathode of the third diode (D3), at the anode of the negative terminal (4) of the load is connected, and the positive terminal of the load (3) to the cathode of the first diode (Dl) is connected (2d-ldi), or in that the positive input terminal (1) is connected to the first terminal of the first partial winding (NI), the cathode of the second diode (D2) is connected to the connection point between the first and second partial windings, to the second terminal of the second partial winding (N2) Connection of the capacitor (C) and the positive terminal of the active switch (S) is connected to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, the cathode of the first diode (D) Dl) is connected to the negative input terminal (2) is connected to the negative terminal of the active switch (S), the connection point between the third (N21) and fourth partial winding (N22), the cathode of the third diode (D3) to the first terminal the third winding (N21) and the anode of the third diode (D3) are connected to the negative terminal of the load (4), and the second terminal of the fourth winding (N22) is connected to the anode of the first diode (D1) and to the positive terminal the load (3) is connected (2d-lvi), or that the positive input terminal (1) is connected to the first terminal of the first partial winding (NI), to the connection point between the first and second partial winding, the cathode of the second diode 29 P98 / 2012032 6 / fh (D2), to the second terminal of the second partial winding (N2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected, to the anode of the second diode (D2) both the Cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, the cathode of the first diode (Dl) to the negative Eingangskleinme (2) is connected between the negative terminal of the active switch (S) and the positive terminal of the load (3), the third (N21) and fourth winding (N22) is connected, at the connection point between the third (N21) and fourth partial winding (N22), the cathode of the third diode (D3), at the anode of the negative terminal the load (4) and the cathode of the first diode (Dl) is connected (2d-2d), or that the positive input terminal (1) is connected to the first terminal of the first partial winding (NI), to the connection point between the first and second Part winding the cathode the second s diode (D2) is connected to the second terminal of the second partial winding (N2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected to the anode of the second diode (D2) both the cathode the first diode (Dl) and the second terminal of the capacitor (C) is connected, the cathode of the first diode (Dl) to the negative input terminal (2) is connected to the negative terminal of the active switch (S), the connection point between third (N21) and fourth (N22), the cathode of the third diode (D3) is connected to the first terminal of the third winding (N21), the anode of the third diode (D3) is connected to the anode of the first diode (D1) and is connected to the negative terminal of the load (4) and the second terminal of the fourth winding (N22) is connected to the positive terminal of the load (3) (2d-2v), or that the positive input terminal (1) to the connection point between first (Nile) and second (NI 2 ) Is connected to the first terminal of the first partial winding (NI 1), the cathode of the second diode (D2) is connected to the second terminal of the second partial winding (NI2) one terminal of the capacitor (C) and the positive terminal of the active Switch (S) is connected to the anode of the second diode (D2) both the cathode of the first diode (Dl) and da * second terminal of the capacitor (C) is connected, the anode of the first diode (Dl) with the negative Input terminal (2) is connected between the anode of the first diode (Dl) and the negative terminal of the active switch (S), the third (N21) and fourth winding (N22) is connected to the connection point between the third (N21) and fourth Partial winding (N22), the cathode of the third diode (D3), at the anode is negative terminal (4) of the load is connected, and the positive terminal of the load (3) to the cathode is connected to the first diode (Dl) (2v -ldi), or that the positive inputsk Lemme (1) to the connection point between the first (Nil) and second (NI2) partial winding is connected to the first terminal of the first Tedlwicklung (Nl 1), the cathode of the second diode (D2) is connected to the second terminal of the second partial winding (N12) is connected one terminal of the capacitor (C) and the positive terminal of the active switch (S), to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, the anode of the first diode (Dl) to the negative input terminal (2) is connected to the negative terminal of the active switch (S), the connection point between the third (N21) and fourth partial winding (N22 ), the cathode of the third diode (D3) is connected to the first terminal of the third winding (N21) and the anode of the third diode (D3) is connected to the negative terminal of the load (4) and the second terminal of the fourth winding ( N22) with de r anode of the first diode (Dl) and connected to the positive terminal of the load (3) (2v-lvi), or that the positive input terminal (1) is connected to the connection point between the first (Nil) and second (N12) partial winding in that the cathode of the second diode (D2) is connected to the first terminal of the first partial winding (Nil), one terminal of the capacitor (C) and the positive terminal of the active switch (S) are connected to the second terminal of the second partial winding (N12) is connected to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C), the anode of the first diode (Dl) is connected to the negative input terminal (2) between the negative terminal of the active switch (S) and the positive terminal of the load (3) the third (N21) and fourth winding (N22) is connected, at the connection point between third (N21) and fourth partial winding (N22) the cathode of third diode (D3), a n whose anode the negative terminal of the load (4) and the anode of the first diode (Dl) is connected (2v-2d), or that the positive input terminal (1) to the connection point between the first (Nl 1) and second (N12) Partial winding is connected to the first terminal of the first part winding (Nl 1), the cathode of the second diode (D2) is connected to the second terminal of the second partial winding (N12) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, the anode of the first diode (Dl) with the negative input terminal ( 2) is connected to the negative terminal of the active switch (S), the connection point between the third (N21) and fourth partial winding (N22), the cathode of the third diode (D3) to the first terminal of the third winding (N21), the anode of the third diode (D3) is connected to the anode of the first diode (D1) and 31 P98 / 20120326 / fh is connected to the negative terminal of the load (4), and the second terminal of the fourth winding (N22) is connected to the positive terminal of the load (3) is (2v-2v), 10. A converter consisting of a first (Nil) and a second (N12) magnetically coupled winding, which are connected in series, a first (Dl), a second (D2), a third (D3) diode, a capacitor (C ), a third (N21) and a fourth (N22) magnetically coupled winding, a positive (1) and a negative (2) input terminal, between which the input voltage is connected, a positive (3) and a negative (4) output terminal, between which the load is connected and an active (S) switch with associated drive, characterized in that the positive input terminal (1) is connected to the first terminal of the first partial winding (NI), at the connection point between the first and second partial winding, the cathode of second diode (D2) is connected to the second terminal of the second partial winding (N2) one terminal of the capacitor (C) and the positive terminal of the active switch (S) is connected to the anode of the two th diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, the cathode of the first diode (Dl) to the negative input terminal (2) is connected between the anode of the first Diode (Dl) and the negative terminal of the active switch (S), the third winding (N21) is connected to the first terminal of the fourth partial winding (N22), the cathode of the third diode (D3), at the anode of the negative terminal of the load (4) is connected, and the second terminal of the fourth partial winding (N22) and the positive terminal of the load (3) are connected (2d-lp) or that the positive input terminal (1) to the connection point between the first (NI l) and the second (NI2) partial winding is connected, to the first terminal of the first partial winding (NI 1) the cathode of the second diode (D2) is connected, to the second terminal of the second partial winding (NI2) one terminal of the capacitor (C) and the positive connection of the active Switch (S) is connected to the anode of the second diode (D2) both the cathode of the first diode (Dl) and the second terminal of the capacitor (C) is connected, the anode of the first diode (Dl) with the negative input terminal (2) is connected, between the anode of the first diode (Dl) and the negative terminal of the active switch (S), the third (N21) is connected to the first terminal of the fourth part winding (N22), the cathode of the third diode ( D3), at the anode of the negative terminal of the load (4) is connected, and the second terminal of the fourth part winding (N22) and the positive terminal of the load (3) are connected. (2v-lp) 32 P98 / 20120326 / fh 11. Converter according to claims 1 to 10, characterized in that the coupled windings (NI 1, N12 or N21, N22) are each designed as a coil with tap between the partial windings. 12. Converter according to claims 1 to 10, characterized in that parallel to the output terminals, a capacitor or a combination of capacitors is connected 13. Converter according to claims 1 to 10, characterized in that parallel to the input terminals, a capacitor or a combination of capacitors is connected 14. Converter according to one of claims 1 to 10, characterized in that one or more diodes are bridged by an active switch. 15. Converter according to one of claims 1 to 10, characterized in that one or more electronic switches are provided with Snubbemetzwerken or with devices for relieved switching. 16. A converter according to any one of claims 1 to 15, characterized in that it is used as a phase of a polyphase inverter. 17. A converter according to any one of claims 1 to 15, characterized in that the converter is preceded by a rectifier. 18. A converter according to any one of claims 1 to 17, characterized in that are used as a load bulbs. 19. Converter according to one of claims 1 to 18, characterized in that the term input and output terminal is generally for the input terminal and output terminal. 33 P98 / 20120326 / fh