| Patent application number | Description | Published |
|---|
| 20080212348 | Method for Operating an Inverter and Arrangement for Executing the Method - There is described a method for operating an electronically controlled inverter. The inverter is controlled during the positive half-wave of the output alternating voltage in such a way that it operates as a SEPIC converter, and during the negative half-wave of the output alternating voltage in such a way that it operates as a CUK converter. | 09-04-2008 |
| 20080266921 | Method for Operating an Inverter and Arrangement for Executing the Method - The invention relates to a method for operating an electronically controlled inverter, said method being characterised in that the inverter is controlled during the positive half-wave of the output alternating voltage in such a way that it operates as a step-up converter/step-down converter cascade, and during the negative half-wave of the output alternating voltage in such a way that it operates as a CUK converter. | 10-30-2008 |
| 20090189575 | Method for Measuring an Alternating Current which is Generated Using Inverters, and Arrangement for Carrying out the Method - There is described a method for measuring an alternating current which is generated using inverters and is fed into an AC power system, wherein a zero crossing signal of the AC power system is predefined, and wherein, triggered by the zero crossing signal, the measured alternating current is periodically adjusted in such a manner that an adjustment value which is assigned to the zero crossing signal is predefined, a measured value which is assigned to the zero crossing signal being adapted to said adjustment value. This method makes it possible for the measurement signal detected by a measuring circuit to be periodically adjusted using an adjustment value even during operation. | 07-30-2009 |
| 20090251938 | Inverter Circuit and Method for Operating the Inverter Circuit - An inverter circuit having a primary circuit with a first choke for periodically connecting a primary winding to a DC voltage present at an input of the inverter circuit, a secondary circuit with a secondary winding, the secondary winding arranged in series with a first capacitor and connected via a full bridge consisting of four switching elements to a AC voltage present at an output of the inverter circuit via a second choke, and a transformer, wherein the primary circuit and the secondary circuit are electrically isolated by the transformer. | 10-08-2009 |
| 20100033238 | Method for Reconstructing a Noise-Reduced Periodic Voltage Signal - A method of reconstruction of a fault-reduced voltage signal corresponding in frequency, amplitude and phase position to a sinusoidal input voltage fault-prone in frequency, amplitude and/or phase position is provided. The input voltage is fed to a first band-pass filter including an adjustable resonant frequency and amplification, the output voltage being the fault-reduced voltage signal. A controlled variable is determined for a first controller by determining the scanned differential voltage of the output voltage and the input voltage in zero points of the output voltage, the controller adjusting the resonate frequency of the first band-pass filter such that the differential voltage in the zero points disappears. A controlled variable is determined for a second controller by determining the scanned differential voltage of the output voltage and the input voltage in vertexes of the output voltage, the second controller controlling the amplification of the first band-pass filter such that the differential voltage in the vertexes disappears. | 02-11-2010 |
| 20100085667 | CIRCUIT ARRANGEMENT COMPRISING AT LEAST TWO CAPACITORS CONNECTED IN SERIES - A circuit arrangement including at least two capacitors that are connected in series to a voltage is provided. The circuit arrangement also includes a voltage divider, arranged in parallel to the at least two capacitors, the voltage divider divides the voltage to the at least two capacitors, and a protective diode arranged in parallel to every capacitor in series to a series resistance in such a manner that the threshold voltage of the protective diode is lower than the admissible voltage of the capacitor arranged in parallel to the protective diode. In addition a protective circuit is arranged in parallel to the series resistances. | 04-08-2010 |
| 20100109709 | CIRCUIT ARRANGEMENT FOR IDENTIFYING NETWORK ZERO CROSSINGS - A circuit arrangement for identifying network zero crossings of a network voltage of an alternating current network is provided. A measurement current generated by the network voltage is supplied to a zero crossing detector in order to produce a network zero crossing signal. A current sink is arranged between a live conductor and a neutral conductor of the alternating current network, the current sink allowing the path of a current value of the measurement current generated by the network voltage to be defined. | 05-06-2010 |
| 20110068770 | Method for Determining the Offset of a Periodic Signal - A method for determining the offset of a periodic signal is provided, wherein an offset value that is caused by a level change of the periodic signal is suppressed. | 03-24-2011 |
| 20110096581 | Inverter and method for operating the inverter - An inverter for converting a DC input voltage to an AC output voltage with an H-bridge is provided. A storage choke circuit is provided between the H-bridge and output-side AC voltage terminals. The storage choke circuit includes a freewheeling path with a freewheeling diode for commutating the current after a turn-off process of a semiconductor switch of the H-bridge. In this arrangement, each switching semiconductor switch is coupled to a resonant circuit which contains capacitive resonant elements and inductive resonant elements. The freewheeling path includes first and second freewheeling diodes connected in parallel, wherein the parallel circuit is connected in series with the inductive resonant elements and the second freewheeling diode is connected in series with capacitive freewheeling elements which are charged to a corresponding voltage at the start of a freewheeling phase as elements of the resonant circuit for zero voltage switching of the second freewheeling diode. | 04-28-2011 |
