AT508993B1 - Single- and multi-phase inverters with the potential to increase the voltage - Google Patents

Abstract

Inverters are used on the one hand for the conversion of DC voltages into AC voltages (single-phase inverters) or in polyphase voltages (polyphase inverters), or vice versa for the conversion of single-phase or multi-phase networks into a DC voltage (rectifier). The use of additional memory (capacitors, coils) allows the designer a more flexible adaptation of the source to the load with further degrees of freedom. The realization takes place e.g. such that n capacitors are connected on one side to each other and to the first positive input terminal and the other terminal of each capacitor is connected to a respective positive terminal of a half-bridge and also the n coils are connected on one side to each other and to the first positive input terminal and the second terminals the coils are connected to a respective middle terminal of a half-bridge and all negative terminals of the half-bridges are connected to each other and to the second negative input terminal and respectively connected to a positive terminal of the half-bridges an AC voltage terminal.

Description

Austrian Patent Office AT508 993B1 2012-05-15

description

Single- and multi-phase inverters with the potential to increase the voltage

The invention relates to inverters, consisting of n (n is greater than or equal to two) bidirectional half-bridges (HBi) each having a positive (HHi), middle (HMi) and a negative (HLi) terminal, each consisting of a first active Switch (S1i), connected in series with a respective second active switch (S2i), wherein an antiparallel diode (D1i, D2i) is connected to each active switch (S1i, S2i), or consisting of n (n is greater than or equal to two ) First active switches (S1i) each having antiparallel first diode (D1i), n second active switches (S2i) each with antiparallel second diode (D2i), further consisting of n coils (Li) of n capacitors (Ci), a first positive (P) and a second negative (N) DC terminal for connection of a unipolar voltage source (U1) or a consumer and n AC voltage terminals (Wi) for connecting the load or for connecting a single- or multi-phase network.

Converters are used on the one hand for the conversion of DC voltages in AC voltages (single-phase inverters) or in multi-phase voltages (polyphase inverter), or vice versa for the conversion of single-phase or multi-phase networks in a DC voltage (rectifier). In the following, the circuits are described in three phases and are suitable both as a rectifier and as an inverter. As loads synchronous (synchronous machine, stepper motors, switched reluctance machines) or asynchronous (asynchronous machine) functioning machines or networks can be used. In a two-phase arrangement can thus be generated a single-phase network or a four-quadrant actuator for a DC motor can be constructed. Similarly, if on the DC side, e.g. a capacitor or a DC voltage source is connected, be used as a reactive power compensator or active line filter.

In addition to the state of the art discussed below, here are some references to the surrounding patent literature.

DE 4018165 C1 (LICENTIA PATENT-ADMINISTRATIVE GMBH) shows a wiring arrangement for high power insulated gate transistors. In a polyphase converter, an overvoltage limiting network consisting of a diode and a capacitor in parallel with the half-bridge and a discharge resistor from the connection point of the capacitor to the cathode of the diode to the intermediate circuit of the converter is arranged at each half-bridge. Since in the event of a short circuit, the voltage increases significantly higher due to the high cut-off current, an additional circuit is arranged, which is switched in the event of a current exceeded by a thyristor.

US 2008/0211547 A1 (MITSUBISHI DENKI KABUSHIKI KAISHA) figured as an inverter, but is always shown in the drawings only as a single quadrant, since no diode is connected in parallel to the highside IGBT. This is not necessary at the drawn inductive load, since the current direction can not be reversed. In my opinion, the low-side IGBT is unnecessary and ultimately leads only to an additional source of error, since it has a higher voltage drop between the drain and source than the parallel diode, it is not even conductive. It only serves to start the charge pump for the supply of the highside driver. For this purpose, however, would suffice a small auxiliary transistor, carried out in bipolar or Unipolar technology.

US 2009/0027933 (KAJOUKE et al.) Discusses a combination of a boost converter with a three-phase IGBT bridge for driving AC machines, wherein the diode of the boost converter is bridged with an IGBT. If the input voltage source is able to absorb energy, then the braking energy can be fed back into the source.

The classic converter consists of three half-bridges, consisting of a series 1 15 Austrian Patent Office AT508 993B1 2012-05-15

Circuit of two active switches (in the drawings by way of example drawn as MOSFETs, at higher powers are for example IGBTs, GTOs, IGCTs in use), each with an anti-parallel diode. The half bridges are connected in parallel and connected to the DC side of the inverter. The center of each half-bridge forms a connection of the AC voltage side (Fig.1).

In the converters shown here, half bridges are also partially used, but these are interconnected differently and in addition are still per half-bridge, a capacitor and a coil added. In a further circuit, the half-bridge concept is not used, the active switches and the diodes connected in antiparallel are used as individual current-bidirectional switches. The new circuits result in a greater variation in the voltage across the load.

The invention will be explained with reference to the circuit diagrams. FIG. 1 represents the classic three-phase converter. FIGS. 2 to 4 illustrate the new converters, for example as three-phase arrangements and exemplarily with MOSFETs, but of course every active switch is possible depending on the application.

The task of realizing a converter for DC voltage in AC or polyphase AC voltage or AC voltage or polyphase AC voltage in DC voltage is inventively achieved in that the n coils (Li) on one side with each other and with the first positive input terminal (P) and the other terminal of each coil (Li) is connected to a positive terminal (HHi) of a half bridge (HBi) and all middle (HMi) terminals of the half bridges (HBi) are connected to each other and to the second negative input terminal (N) and in each case at a negative (HLi) terminal of the half-bridges (HBi) each an AC voltage terminal (Wi) is connected and to each half-bridge (HBi) between the positive terminal (HHi) and the negative terminal (HLi) a capacitor Ci is connected (Fig. 2), or that the n capacitors (Ci) are connected to one another and to the first positive input terminal (P) and de r each other terminal of each capacitor (Ci) is connected to a respective positive terminal (HHi) of a half-bridge (HBi) and also the n coils (Li) are connected to one another and to the first positive input terminal (P) and the second terminals of the Coils are each connected to a middle terminal (HMi) of a half bridge (HBi) and all negative (HLi) terminals of the half bridges (HBi) are connected to each other and to the second negative input terminal (N) and respectively to a positive (HHi) terminal of Half bridges (HBi) in each case an AC voltage terminal (Wi) is connected (Figure 3), or that the n first active switch (S1i) with antiparallel diode (D1i) on the cathode side with each other and with the positive input terminal (P) are connected and on the anode side Capacitor (Ci) whose second terminal is connected to the anode of a second diode (D2i) and an AC voltage terminal (Wi) and a coil (Li) is connected, the second Anschl uss with the associated cathode of the second diode (D2i) and the second negative DC voltage terminal (N) is connected (Fig. 4).

If the circuit is realized by half-bridges, it makes sense to accomplish the interconnection of the half-bridges by modules. Furthermore, it is useful to avoid overvoltages caused by parasitic inductances between the first positive terminal (P) and the second negative terminal (N) to switch one or more capacitors and as close as possible to the switching elements.

The integration of the converter circuits in the overall system, the control of the active switch and the corresponding control algorithms can be realized according to the prior art. 2.5

Claims (5)

Austrian Patent Office AT508 993B1 2012-05-15 Claims 1. Inverter comprising n (n is greater than or equal to two) bidirectional half-bridges (HBi) each having a positive (HHi), middle (HMi) and a negative (HLi) terminal, each consisting of a first active switch (S1 i), connected in series with a respective second active switch (S2i), wherein an antiparallel diode (D1i, D2i) is connected to each active switch (S1i, S2i), further consisting of n Coils (Li), n capacitors (Ci), a first positive (P) and a second negative (N) DC terminal for connection of a unipolar voltage source (U1) or a consumer and n AC terminals (Wi) for connecting the load or for connection a single- or multi-phase network, characterized in that the n coils (Li) are connected to one another and to the first positive input terminal (P) and to the other terminal of each coil (Li) a positive terminal (HHi) of a half bridge (HBi) is connected and all middle (HMi) terminals of the half bridges (HBi) are connected to each other and to the second negative input terminal (N) and each at a negative (HLi) terminal of the half bridges (HBi ) is connected in each case an AC voltage terminal (Wi) and to each half-bridge (HBi) between the positive terminal (HHi) and the negative terminal (HLi), a capacitor Ci is connected (Figure 2). 2. converter, consisting of n (n is greater than or equal to two) bidirectional half-bridges (HBi) each having a positive (HHi), middle (HMi) and a negative (HLi) terminal, each consisting of a first active switch (S1 i ), in series with a respective second active switch (S2i), wherein an antiparallel diode (D1i, D2i) is connected to each active switch (S1i, S2i), further consisting of n coils (Li), n capacitors (Ci ), a first positive (P) and a second negative (N) DC terminal for connection of a unipolar voltage source (U1) or a consumer and n AC voltage terminals (Wi) for connecting the load or for connecting a single- or multi-phase network, characterized the n capacitors (Ci) are connected on one side to one another and to the first positive input terminal (P), and the respective other terminal of each capacitor (Ci) is connected to a respective positive terminal (HHi) of a half-bridge (HBi ) and also the n coils (Li) are connected to one another and to the first positive input terminal (P) and the second terminals of the coils are connected to a respective middle terminal (HMi) of a half-bridge (HBi) and all negative (HLi ) Terminals of the half bridges (HBi) with each other and with the second negative input terminal (N) are connected and in each case to a positive (HHi) terminal of the half bridges (HBi) each an AC voltage terminal (Wi) is connected (Figure 3). 3. converter, consisting of n (n is greater than or equal to two) first active switches (S1i) each having antiparallel first diode (D1i), n second active switches (S2i) each with antiparallel second diode (D2i), further consisting of n Coils (Li), n capacitors (Ci), a first positive (P) and a second negative (N) DC terminal for connection of a unipolar voltage source (U1) or a consumer and n AC terminals (Wi) for connecting the load or for connection a mono- or poly-phase network, characterized in that the n first active switches (S1i) with anti-parallel diode (D1i) are connected to one another on the cathode side and to the positive input terminal (P) and on the anode side a capacitor (Ci) whose second terminal the anode of a second diode (D2i) and an AC voltage terminal (Wi) is connected and a coil (Li) is connected, the second terminal connected to the associated cathode of the second n diode (D2i) and the second negative DC terminal (N) is connected (Fig. 4). 3/5 Austrian Patent Office AT508 993B1 2012-05-15 4. Converter according to claim 1 and 2, characterized in that the interconnection of the first active switch (S1 i), the second active switch (S2i) and each parallel-connected anti-parallel diodes (D1i, D2i) is achieved by means of a half-bridge module. 5. Converter according to one of claims 1 to 4, characterized in that between the first positive terminal (P) and the second negative terminal (N) one or more capacitors are connected. 1 sheet of drawings 4/5