Abstract: The present disclosure relates to a liquid pharmaceutical formulation comprising a DOSA-derived tetra-chelate of formula (I), in which M is an ion of a paramagnetic metal, preferably a Gd3+ ion, and R1, R2, R3, R4 and R5 are as defined in the claims, in a pharmaceutical acceptable solvent. The present disclosure also relates to a method of preparation of said liquid pharmaceutical formulation and to a method of imaging involving said liquid pharmaceutical formulation.

Abstract: Described is a supply circuit for a corona ignition device, with an input for connection to a direct voltage source, a first converter, a second converter, and an output for connecting a load. The two converters each generate an output voltage, which is provided on its secondary side and exceeds the input voltage. The two converters each contain a transformer that galvanically separates the primary side of the converter from its secondary side. At least one transistor switch is arranged between the input and primary side of the two converters for pulse width-modulation of the input voltage.

Abstract: A corona ignition system is described for igniting fuel in a combustion chamber of an internal combustion engine, with a resonant circuit, which contains an ignition electrode, a high frequency generator connected to the resonant circuit, in order to generate an AC voltage for exciting the resonant circuit, and a direct current voltage source, in order to generate an input voltage for the high frequency generator. According to this disclosure, provision is made that parallel to the direct current voltage source a capacitor is connected to the high frequency generator, which capacitor on transient oscillation of the resonant circuit compensates mismatches between the resonant circuit and the direct current voltage source.

Abstract: Described is a supply circuit for a corona ignition device, with an input for connection to a direct voltage source, a first converter, a second converter, and an output for connecting a load. The two converters each generate an output voltage, which is provided on its secondary side and exceeds the input voltage. The two converters each contain a transformer that galvanically separates the primary side of the converter from its secondary side. At least one transistor switch is arranged between the input and primary side of the two converters for pulse width-modulation of the input voltage.

Abstract: A corona ignition system is described for igniting fuel in a combustion chamber of an internal combustion engine, with a resonant circuit, which contains an ignition electrode, a high frequency generator connected to the resonant circuit, in order to generate an AC voltage for exciting the resonant circuit, and a direct current voltage source, in order to generate an input voltage for the high frequency generator. According to this disclosure, provision is made that parallel to the direct current voltage source a capacitor is connected to the high frequency generator, which capacitor on transient oscillation of the resonant circuit compensates mismatches between the resonant circuit and the direct current voltage source.

Abstract: A method for controlling a corona ignition device, which comprises an ignition electrode, at which a corona discharge is produced, a resonating circuit, which contains the ignition electrode, and a high-frequency generator connected to the resonating circuit, wherein the resonating circuit is excited with an AC voltage (Ui) produced by the high-frequency generator, the frequency of said voltage being specified by a control signal (Ud) applied across the high-frequency generator, the frequency of the control signal (Ud) is changed as the control variable of a control circuit, and the phase position between the current (Ii) flowing in the resonating circuit and a voltage signal is regulated to a target value, characterised in that the target value is changed during the operation of the corona ignition device. A corona ignition device for igniting fuel in a combustion chamber of an internal combustion engine is also described.