Abstract: A coil unit for an electric vehicle for the inductive transfer of electrical energy between the coil unit and a stationary charging station. The coil unit includes at least one coil and a flux guide unit for guiding a magnetic flux occurring during operation of the coil. Also disclosed is an electric vehicle having a coil unit for the inductive transfer of electrical energy between a secondary coil of the coil unit and a primary coil of a charging station. The disclosed coil solves the problem of allowing the safe use of the inductive electrical energy transfer in electric vehicles, in particular motor vehicles, by proposing a coil unit, in which the flux guide unit has material weakenings, and an electric vehicle having such a coil unit.

Abstract: In a method for detecting an electrically conductive foreign body at a device for inductively transmitting electrical energy from a stationary unit having an electrical power supply unit and a primary inductor to a mobile unit having a secondary inductor and an electric load, electrical power is initially fed from the electrical power supply unit into the primary inductor and the feed-in is interrupted. The curve over time of the resulting decay of an electrical operating variable of the primary inductor is measured and at least one parameter of the measured curve is compared with a corresponding parameter of a reference curve in the event of an interruption of the power feed-in into the primary inductor without the presence of an electrically conductive foreign body. The comparison is used to determine whether an electrically conductive foreign body is present in the region of the magnetic field produced by the primary inductor.

Abstract: An apparatus for inductively transmitting electrical energy from a stationary unit to a mobile unit which is located adjacent to the stationary unit. The apparatus has a coil and a flux guide unit for guiding a magnetic flux occurring during operation of the apparatus with at least one ferromagnetic body, which consists of a multiplicity of individual elements. The flux guide unit has the basic shape of a plate and is arranged on one side of the coil perpendicular to the winding axis thereof in such a way that it covers the cross-sectional area of the coil at least partially. The ferromagnetic body includes individual elements with anisotropic magnetic permeability and has, overall, anisotropic magnetic permeability.

Abstract: A device for the inductive transmission of electrical energy having a coil which can be inductively coupled to another coil for energy transmission; a power electronic unit for drawing electrical power from the coil or for outputting electrical power into the coil; and a feedline connecting the coil to the power electronic unit. The feedline includes at least two multi-conductor cables with conductors which are insulated from one another and the connection of each terminal of the coil to a respectively assigned terminal of the power electronic unit includes a plurality of conductors of the multi-conductor cables. Each terminal of the coil is preferably connected to the respectively assigned terminal of the power electronic unit by conductors of at least two different cables and the same number of conductors of each individual cable connect each terminal of the coil to the respectively assigned terminal of the power electronic unit.

Abstract: A device for the inductive transfer of electric energy from a stationary unit having a current supply device and a primary inductance to a vehicle that is adjacent the unit and has a secondary inductance. The vehicle has a secondary control element for adjusting the secondary power taken from the secondary inductance and comprises a control device enabling the withdrawn secondary power to be modified in steps. The stationary unit comprises a primary control element for adjusting the primary power and a first measuring device enabling an operational parameter, influenced by the secondary power, of the current supply device to be measured. The primary control element adjusts the primary power which can be injected in accordance with modifications of the operational parameter. The secondary power can be switched by the switching device and has in one of the steps, a value which is at least approximately zero.

Abstract: A coil unit for an electric vehicle for the inductive transfer of electrical energy between the coil unit and a stationary charging station. The coil unit includes at least one coil and a flux guide unit for guiding a magnetic flux occurring during operation of the coil. Also disclosed is an electric vehicle having a coil unit for the inductive transfer of electrical energy between a secondary coil of the coil unit and a primary coil of a charging station. The disclosed coil solves the problem of allowing the safe use of the inductive electrical energy transfer in electric vehicles, in particular motor vehicles, by proposing a coil unit, in which the flux guide unit has material weakenings, and an electric vehicle having such a coil unit.

Abstract: An apparatus for inductively transmitting electrical energy from a stationary unit to a mobile unit which is located adjacent to the stationary unit. The apparatus has a coil and a flux guide unit for guiding a magnetic flux occurring during operation of the apparatus with at least one ferromagnetic body, which consists of a multiplicity of individual elements. The flux guide unit has the basic shape of a plate and is arranged on one side of the coil perpendicular to the winding axis thereof in such a way that it covers the cross-sectional area of the coil at least partially. The ferromagnetic body includes individual elements with anisotropic magnetic permeability and has, overall, anisotropic magnetic permeability.

Abstract: A device for the inductive transfer of electric energy from a stationary unit having a current supply device and a primary inductance to a vehicle that is adjacent the unit and has a secondary inductance. The vehicle has a secondary control element for adjusting the secondary power taken from the secondary inductance and comprises a control device enabling the withdrawn secondary power to be modified in steps. The stationary unit comprises a primary control element for adjusting the primary power and a first measuring device enabling an operational parameter, influenced by the secondary power, of the current supply device to be measured. The primary control element adjusts the primary power which can be injected in accordance with modifications of the operational parameter. The secondary power can be switched by the switching device and has in one of the steps, a value which is at least approximately zero.

Abstract: A device for the inductive transmission of electrical energy having a coil which can be inductively coupled to another coil for energy transmission; a power electronic unit for drawing electrical power from the coil or for outputting electrical power into the coil; and a feedline connecting the coil to the power electronic unit. The feedline includes at least two multi-conductor cables with conductors which are insulated from one another and the connection of each terminal of the coil to a respectively assigned terminal of the power electronic unit includes a plurality of conductors of the multi-conductor cables. Each terminal of the coil is preferably connected to the respectively assigned terminal of the power electronic unit by conductors of at least two different cables and the same number of conductors of each individual cable connect each terminal of the coil to the respectively assigned terminal of the power electronic unit.

Abstract: In a method for detecting an electrically conductive foreign body at a device for inductively transmitting electrical energy from a stationary unit having an electrical power supply unit and a primary inductor to a mobile unit having a secondary inductor and an electric load, electrical power is initially fed from the electrical power supply unit into the primary inductor and the feed-in is interrupted. The curve over time of the resulting decay of an electrical operating variable of the primary inductor is measured and at least one parameter of the measured curve is compared with a corresponding parameter of a reference curve in the event of an interruption of the power feed-in into the primary inductor without the presence of an electrically conductive foreign body. The comparison is used to determine whether an electrically conductive foreign body is present in the region of the magnetic field produced by the primary inductor.

Abstract: A device for the inductive transfer of electric energy from a stationary unit having a current supply device and a primary inductance connected thereto, to a vehicle which is adjacent to the stationary unit and has a secondary inductance. The vehicle has an emitter device for sending a data signal in the secondary inductance and the stationary unit includes a capturing device for capturing a data signal emitted by the primary inductance. The current supply device is activated by the capturing device in accordance with the content of the captured data signal for injecting the primary inductance. The emitting device includes a memory with a vehicle-specific code and the data signal which it produces contains the code. The capturing device includes a memory with an authorisation code and a comparison device such that the activation of the current supply device is triggered only if the comparison device identifies the authorisation code in the captured data signal.

Abstract: The luminescence imaging apparatus comprises: a stage receiving a sample (2) emitting luminescence information about the sample; a light source (8) illuminating the stage; and an electronic control unit defining time frames; a combined light signal corresponding to a combination of luminescence information and of the reflection on the sample of the illumination. During each time frame, the detection apparatus (9) acquires both first data relating to the luminescence information, and also second data relating to the second light signal.