Patent application number | Description | Published |
20110231159 | FORWARDING OPERATION DATA RELATED TO THE PRESENT OPERATION OF A PLURALITY OF INVERTER UNITS TO A MONITORING UNIT - For forwarding operation data related to the present operation of a plurality of inverter units which feed electric power from power generators into a power grid to a monitoring unit, the inverter units and a plurality of intermediate data handling units are connected to the central monitoring unit in a communication network of logical tree architecture. The tree architecture branches towards the inverter units, and several inverter units are connected to each intermediate unit. The operation data from each inverter unit are forwarded to that intermediate unit to which the inverter unit is connected; and, in each intermediate unit connected between the inverter units from which the operation data are forwarded and the monitoring unit, operation data of the same type forwarded from the inverter units connected to the intermediate unit are merged to reduce their data volume, and only the merged operation data are forwarded towards the monitoring unit. | 09-22-2011 |
20110307199 | METHOD OF RECOGNIZING AND ASSESSING SHADOWING EVENTS - For recognizing shadowing events affecting a photovoltaic module, electric power produced by the module is recorded. For each position of the sun on a present day an expected value of the electric power is defined. Further, an ideal power course of the electric power over the present day is determined by fitting a curve that corresponds to cloudless sun without shadow casting obstacles to peak values of the electric power recorded for same positions of the sun during a plurality of previous days. For all positions of the sun at which the electric power produced on the present day falls short of the ideal power course a shadowing probability of not less than zero is defined whose magnitude depends on the level of accord of the electric power produced on the present day with the expected value at the position of the sun. | 12-15-2011 |
20110308318 | INSOLATION SENSOR FOR SOLAR LIGHT INTENSITY - An insolation sensor is disclosed and is used to determine a solar light intensity as a basis for evaluating electric power generated by solar modules exposed to the solar light intensity. The insolation sensor includes an outer surface including a light entrance window, and at least one photo sensor configured to measure the solar light intensity. The at least one photo sensor is arranged behind the light entrance window. The insolation sensor further includes a detector device configured to detect precipitation and/or a resulting deposit on the surface which both affects the insolation sensor and the solar modules. | 12-22-2011 |
20120068687 | Method for Determining a Spatial Arrangement of Photovoltaic Module Groups in a Photovoltaic Installation - A method for determining a spatial arrangement of photovoltaic module groups in a photovoltaic installation includes measuring a sequence of values of an illumination-dependent electrical characteristic variable of different photovoltaic module groups while the photovoltaic installation is subject to light incidence with an incidence intensity which varies over time and spatially. The relative spatial arrangement of the photovoltaic module groups with respect to one another is then determined by comparing sequences of measured values associated with different photovoltaic module groups. | 03-22-2012 |
20120244809 | WIRELESS COMMUNICATION NETWORK BETWEEN PARTICIPANTS OF AN ASSIMILATION STEP - A method of building a wireless communication network between a plurality of pre-defined devices which include spatially distributed inverters for feeding electric energy into an AC power grid and which each have a spatially limited range in wireless communication is provided. The method includes the steps of assimilating the pre-defined devices for a limited period of time, and in the step of assimilating, generating at least one network ID and persistently storing the at least one network ID in each pre-defined device participating in the step of assimilating. The method further includes, after the step of assimilating, connecting each pre-defined device exclusively to such other pre-defined devices in which network IDs originating from the same step of assimilating are stored. | 09-27-2012 |
20130148100 | Method of Localizing Objects Temporarily Shadowing a PV System - A method of localizing stationary objects causing temporary shadowing of light sensitive components of a PV system is disclosed. The method includes analyzing an electrical signal of the light sensitive components with regard to an occurrence of a shadowing event caused by the stationary object, and determining from a solar altitude associated with the shadowing event a direction of the stationary object causing the shadowing event. The analysis of the electrical signal takes into account a shadow movement of the object as a function of the solar altitude. A distance of the object is determined from this analysis. The results of the method may be used to determine an energy loss associated with the stationary object and may support a decision on removal of the object to improve efficiency of the PV system. | 06-13-2013 |
20130241535 | Method for Verifying an Electrical Connection Between a Generator and an Inverter - A method of verification of an electrical connection between a generator and an inverter by a cable is disclosed. The method includes placing a handheld device with a current detection sensor in vicinity of a cable. A command to change a current is transmitted from the handheld device to the inverter to generate a current signature within an inverter-generator connection cable. A sensor signature is detected by the current detection sensor and compared to the current signature caused by the command to change a current. A verification signal based on the comparison is generated. The method may be used to compile a wiring plan between a plurality of generators and a plurality of inverters. | 09-19-2013 |
20140046495 | Optimized Load Management - For optimizing a chronological development of consumption of electric power by a group of different consumers with regard to a supply of electric power including electric power from at least one wind or solar power generator, characteristic time curves of the consumption of electric power are determined at a high temporal resolution. A prognosis is made of a chronological development of the supply of electric power from the at least one power generator for a future period of time, and a plan for apportioning electric power to the individual consumers within the future period of time is made based on the characteristic time curves of the consumption of electric power by the individual consumers, the prognosis, and user goal setting by a user of the consumers resulting in different weightings of consumption of electric power by different consumers and supply of electric power by different power sources. | 02-13-2014 |