Belschner
Jakob Belschner, Frankfurt DE
Patent application number | Description | Published |
---|---|---|
20120100857 | METHOD FOR OPTIMIZING THE HANDOVER BEHAVIOR IN A MOBILE RADIO NETWORK - A method for optimizing handover behavior in a mobile radio network includes: a) determining, during a first period of time, the handover behavior of at least one base station of the mobile radio network, with current configuration values of the handover parameters of the at least one base station; b) evaluating a current configuration of the at least one base station based on the determined handover behavior during the first period of time; c1) in the case that step b) does not indicate a need for optimization: repeating steps a) and b); or c2) in the case that step b) indicates a need for optimization: setting an optimization parameter A to a maximum value Amax; and d) modifying configuration values of at least one handover parameter. | 04-26-2012 |
Ralf Belschner, Pliezhausen DE
Patent application number | Description | Published |
---|---|---|
20110064090 | CYCLICAL TIME-BASED COMMUNICATION SYSTEM, USER IN SUCH A SYSTEM AND TRANSMISSION METHOD - A cyclical time-based communication system, for the transmission of data (DATA) between users, comprising a databus and users connected thereto. The data transmission occurs within cyclical repeating timeframes, each with at least two timeslots. Each timeslot is provided for the transmission of a message (Ni). A message (Ni) comprises at least part of the data (DATA) and each message (Ni) is provided with a code (ID). The bandwidth available for data transmission may be better utilized, if the code (ID) is placed within the message(Ni), each message (Ni) is additionally provided with time information concerning the timeslot which may be extracted from the code, and at least one of the timeslots may be used for transmission of various messages in various cycles. In a preferred embodiment the information relating to the current cycle comprises an ordinal number. In the simplest case the number has two values 0 and 1. | 03-17-2011 |
Werner Belschner, Bilz DE
Patent application number | Description | Published |
---|---|---|
20100009227 | Monitoring Apparatus for a Fuel Cell Stack - A control apparatus for a fuel cell stack having an operation control module is provided. The operation control module is configured in terms of programming and circuitry in order to control a large number of sensor or actuator systems that are relevant to normal operation. The sensor or actuator systems relate to the operating state of the fuel cell stack during normal operation and have a safety control module that is designed in terms of programming and circuitry to control safety-relevant sensor or actuator systems. The safety-relevant sensor or actuator systems relate to the safety functions of the fuel cell stack and the safety control module is in the form of an assembly which operates autonomously with respect to the operation control module. A method for controlling the fuel cell stack and the operation control module is also provided. | 01-14-2010 |
Werner Belschner, Michelbach A.d. Bilz DE
Patent application number | Description | Published |
---|---|---|
20090305101 | Fuel Cell Apparatus Having a Current Sensor and a Current Sensor for a Fuel Cell Apparatus - A fuel cell apparatus includes at least one busbar for discharging high electrical currents from a high-voltage side of a fuel cell unit and a current sensor that comprises an evaluation electronics unit. A resistance element of the current sensor is integrated in the outgoing electrical conductor. | 12-10-2009 |
20120125409 | FASTENING OF PANEL-TYPE ELEMENTS - A mounting system for panel-type elements, in particular facade elements, thermoelectric generator elements, thermal solar collectors, photovoltaic modules or solar modules is described, for fastening and securing the element on at least one upper and one lower transverse rail, which are arranged in parallel with and at a spacing from each other for holding an element. The mounting system includes: at least one fastening member fixedly connected to the back side of the element and having at least one anchoring member arranged substantially perpendicularly to the back side for fastening to the upper transverse rail. In the installed position of the element, the fastening member has a smaller distance, relative to a line of slope, from an upper edge of an outer contour of the element than from a lower edge of the outer contour. A panel-type element including a like mounting system, as well as a substructure for holding such an element are also described. | 05-24-2012 |
20120139737 | PHOTOVOLTAIC MODULE AND COMBINATION OF SEVERAL PHOTOVOLTAIC MODULES - A photovoltaic module including a plurality of single photovoltaic cells is described. The photovoltaic module includes an electric connection device having power connections for outputting generated photovoltaic energy to a consumer network and an electric cutout device having cutout terminals at the power connections of the electric connection device and at least one safety circuit breaker through which the power connections of the electric connection device may be disconnected electrically from the consumer network. The electric cutout device includes a trigger device which is formed with a thermal sensitivity and/or a smoke sensitivity, which is connected to the safety circuit breaker in such a way that upon detection of a temperature and/or of smoke exceeding a predetermined threshold, the safety circuit breaker electrically disconnects the power connections of the electric connection device from the consumer network. A combination of several such photovoltaic modules is also described. | 06-07-2012 |
Werner Belschner, Michelbach An Der Bilz DE
Patent application number | Description | Published |
---|---|---|
20140015318 | POWER CONVERTER MODULE, PHOTOVOLTAIC SYSTEM HAVING A POWER CONVERTER MODULE, AND METHOD FOR OPERATING A PHOTOVOLTAIC SYSTEM - A power converter module includes: a DC input terminal configured to receive an input voltage from a DC source; an intermediate circuit coupled directly to the DC input terminal; a DC output terminal configured to provide an output direct voltage; an AC output terminal configured to provide an output alternating voltage; a DC converter coupled between the intermediate circuit and the DC output terminal in order to receive an input voltage from the intermediate circuit; an inverter coupled between the intermediate circuit and the AC output terminal in order to draw an input voltage from the intermediate circuit; and a regulating device coupled to the DC converter and to the inverter, the regulating device being configured to regulate the input voltage of the inverter and of the DC converter to a maximum power drain from the DC source. | 01-16-2014 |
20140021783 | ENERGY STORE FOR A PHOTOVOLTAIC SYSTEM, ENERGY STORAGE POWER PLANT, CONTROL DEVICE, AND METHOD FOR OPERATING AN ENERGY STORE - An energy store for a photovoltaic system has: a first capacity range which is provided for feeding into the power grid; a second capacity range which is provided for internal consumption and feeding into the power grid; and a third capacity range which is provided for feeding into the power grid. | 01-23-2014 |