Patent application number | Description | Published |
20080306203 | Silicon Dioxide Dispersion - The invention relates to a silicon dioxide dispersion that comprises a) an outer flowable phase containing 1) polymerizable monomers, oligomers and/or prepolymers that can be converted to polymers by non-radical reaction; and/or 2) polymers, and b) a disperse phase containing amorphous silicon dioxide. The inventive dispersion is characterized in that the average particle size d | 12-11-2008 |
20090298987 | Polymer resin composition - The invention provides a polymeric composition comprising:
| 12-03-2009 |
20100261822 | MODIFIED REACTION RESIN - The object of the patent is to provide a modified reaction resin, comprising: a) at least one cyanate tester; b) at least one polyorganosiloxane contained in the reaction resin in finely distributed form. The thus modified reaction resin is stable for storage for long periods in non-cured form and can be cured to form duromers with advantageous mechanical characteristics. | 10-14-2010 |
20150094386 | Silicon Dioxide Dispersion - The invention relates to a silicon dioxide dispersion that comprises a) an outer flowable phase containing 1) polymerizable monomers, oligomers and/or prepolymers that can be converted to polymers by non-radical reaction; and/or 2) polymers, and b) a disperse phase containing amorphous silicon dioxide. The inventive dispersion is characterized in that the average particle size d | 04-02-2015 |
20150133597 | POLYMER RESIN COMPOSITION - The invention provides a polymeric composition comprising:
| 05-14-2015 |
Patent application number | Description | Published |
20130274939 | METHOD FOR COMPUTER-AIDED CONTROL OF THE ELECTRICAL POWER CONSUMPTION OF A PLURALITY OF POWER CONSUMERS IN AN ELECTRICAL POWER GRID - In a method for controlling the electrical power consumption of a plurality of power consumers in an electrical power grid, the power consumers represent network nodes of a distributed communication network made of a plurality of network nodes, in which the power consumers communicate with each other. The network nodes estimate the total power consumption of the network nodes based on the exchange of information with one other network node. Each network node, the power demand of which increases by a required amount of power, compares the total power consumption estimated by same plus the required amount of power to a predefined total power demand of the network nodes and initiates a delivery of the required amount of power from a power provider if the estimated total power demand thereof plus the required amount of power is less than the predefined total power demand by a threshold value. | 10-17-2013 |
20140084874 | METHOD AND APPARATUS FOR PROVIDING ELECTRICAL ENERGY - In a charging management system for electrical vehicles, a maximum charging current for a plurality of charging operations, e.g., for a plurality of charging stations and/or electrical vehicles, is coordinated in a centralized or decentralized manner while complying with predefined flexibly adjustable secondary conditions. The secondary conditions can include economic and/or technical stipulations. In addition to a centralized load management system, a decentralized load management facility carries out load distribution via a master charging station or autonomously by each charging station itself. If the master charging station fails, a changeover is made to a backup master charging station. The method can be used, for example, in electrical mobility, in particular the electrification of individual traffic. | 03-27-2014 |
20140203779 | METHOD AND DEVICE FOR PROVIDING ELECTRICAL ENERGY - Electrical energy which has been provided for a given session (e.g. for charging an electric vehicle), but was not called up (required), can be otherwise used for at least one other session. The available electrical energy can be divided efficiently between the sessions in accordance with the actually required energy. Further, a plan set prior to this allocation requires only a low, or zero, degree of predictive accuracy since the amounts of assigned electrical energy can be corrected during the charging process. This is useful, for example, in electro-mobility and load management when charging a plurality of electric vehicles. | 07-24-2014 |
20150236506 | METHOD AND APPARATUS FOR PERFORMING A LOCAL CONTROL OF AN ENERGY RESOURCE - Method and apparatus for performing a local control of an energy resource An energy resource controller (ERC) of an energy resource (ER) within an energy management system of a power supply grid (PSG), wherein said energy resource controller (ERC) is adapted to monitor a communication link (CL) to a control unit (CU) of said energy management system and to emulate after a loss or limitation of communication via said communication link (CL) has been detected a continued reception of control parameters and/or control limits from said control unit (CU) to perform a local control of the associated energy resource (ER) on the basis of the emulated control parameters and/or control limits according to an applied energy management policy (EMP). | 08-20-2015 |
Patent application number | Description | Published |
20080269587 | PROCESS AND DEVICE FOR MONITORING THE STATUS OF THE BODY FLUIDS OF A PERSON - A process and a device are provided for monitoring the status of the body fluids of a person. The device includes a piece of clothing with ventilating ducts, a first temperature sensor ( | 10-30-2008 |
20090020119 | RESPIRATOR AND A PROCESS FOR OPERATING A RESPIRATOR - Operating a respirator with an inspiration pressure-vs.-time curve ( | 01-22-2009 |
20090114224 | METHOD FOR AUTOMATICALLY CONTROLLING A VENTILATION OR BREATHING SYSTEM AS WELL AS A CORRESPONDING VENTILATION OR BREATHING SYSTEM - A method is provided for automatically controlling a ventilation or breathing system with a ventilation unit ( | 05-07-2009 |
20090159082 | METHOD OF AUTOMATICALLY CONTROLLING A RESPIRATION SYSTEM AND A CORRESPONDING RESPIRATOR - A method of automatically controlling a respiration system for proportional assist ventilation with a control device and with a ventilator. An electrical signal is recorded by electromyography with electrodes on the chest in order to obtain a signal u | 06-25-2009 |
20100307499 | RESPIRATOR WITH AUTOMATICALLY CONTROLLED PRESSURE-ASSIST RESPIRATION - A respirator with an adjustable pressure or volume flow curve has a control and analyzing unit, which is set up to determine the resistance R and the alveolar pressure P | 12-09-2010 |
20110028819 | MEDICAL SENSOR DEVICE - Electromyographic and mechanomyographic parameters of a patient are detected accurately with few artifacts in a medical sensor device ( | 02-03-2011 |
20110240021 | RESPIRATOR OR ANESTHESIA SYSTEM - A respirator or anesthesia system for respirating a patient ( | 10-06-2011 |
20120152249 | PROCESS FOR THE AUTOMATIC CONTROL OF A RESPIRATOR - A process for the automatic control of a respirator with a changeover between phases of respiration (inspiration and expiration), by a control unit checking a breathing activity signal for a threshold criterion. If the threshold criterion is met, a changeover is made and the control unit controls the fan of the respirator such that a pneumatic respiration variable (airway pressure, flow) is brought from an actual value to a preset target value for the new phase of respiration. The control unit further divides the change in the respiration variable, from the actual value to the target value, into a plurality of partial steps and checks the current breathing activity signal for the threshold criterion after each partial step. If this threshold criterion is no longer met, the state of operation of the respirator returns to the state before the last changeover, and otherwise, continues with the next partial step. | 06-21-2012 |
20120152250 | PROCESS FOR THE AUTOMATIC CONTROL OF A RESPIRATOR - A process is provided for the automatic control of a respirator for changing over (triggering) between consecutive phases of respiration (inspiration and expiration phases), wherein a pneumatic breathing activity signal u | 06-21-2012 |
20120152251 | PROCESS FOR THE AUTOMATIC CONTROL OF A RESPIRATOR - A process for automatic control of a respirator changes between two phases of respiration by checking a detected respiratory breathing activity signal for a threshold criterion. If the threshold criterion is met, a changeover is made. A dynamic threshold curve, used for changing over into an inspiration phase, is held, after the beginning of the present expiration phase, at high values until the end of a selected inspiratory refractory period, and is then lowered monotonically, dropping to an inspiratory threshold target value at the expected point in time of the phase duration maximum of the present expiration phase. A dynamic threshold curve, which is held at low values, after the beginning of the present inspiration phase, until the end of a selected expiratory refractory period, is raised monotonically, increasing to an expiratory threshold target value at the expected point in time of the phase duration maximum of the present inspiration phase and is then changed over into the expiration phase when the breathing activity signal drops below the threshold curve for the expiration. The phase duration of the inspiration and expiration phases or breath duration (inspiration and expiration phases) is stored in each case, and the expected points in time of the phase duration maxima are derived from the distributions of the phase durations in relation to the beginning of the respective phase of respiration or from the distribution of the breath durations in relation to the beginning of the previous phase of respiration. | 06-21-2012 |
20130213399 | RESPIRATION SYSTEM - A respiration system for noninvasive respiration includes a respiration drive, which is controlled by a control device, and includes a patient module ( | 08-22-2013 |
20140142395 | APPARATUS AND METHOD FOR DATA PROCESSING OF PHYSIOLOGICAL SIGNALS - A filter apparatus ( | 05-22-2014 |
20140180029 | ELECTRODE ARRAY FOR ELECTROMYOGRAPHIC MEASUREMENTS - A sensor device for the electromyographic recording of muscle signals on the skin of a living body includes at least two recording electrodes and an earth electrode. The electrodes have a common carrier layer that has at least one perforation at which the carrier layer can be separated. After the separation of the carrier layer at the perforation, each electrode is located separately on a separated part of the carrier layer. Further, the sensor device includes at least one shielded cable, one end of which is connected to one of the electrodes and the other end of which is connected to a contact element. The contact element can be connected to an evaluation unit by means of a connecting element such that signals can be transmitted to the evaluation unit. | 06-26-2014 |