Patent application number | Description | Published |
20090028187 | Upstream adaptive modulation in a communications system - A system and method for providing upstream adaptive modulation. Burst parameters associated with a range of data interval usage codes (IUCs) are defined. Each of the data IUCs has a different modulation order and forward error correction (FEC). The SNR and codeword error rate for each satellite modem in the network are monitored. The data IUCs are dynamically assigned to different satellite modems within an upstream channel based on SNR and/or codeword error rate to enable each of the satellite modems in the upstream channel to achieve maximum bandwidth efficiency during upstream data transmissions. Bandwidth requests are received from the satellite modems and granted. The grant includes the assigned data IUC. The data bursts received in the upstream channel are each processed using the parameters from the assigned IUC for each of the satellite modems sending data in the upstream channel. When any of the satellite modems' SNR and/or codeword error rate changes, the data IUC for that satellite modem is changed accordingly. | 01-29-2009 |
20090273401 | Method and System for Multiple Tuner Application Using a Low Noise Broadband Distribution Amplifier - An active splitter circuit arrangement includes a first amplification module having a number of first input ports and first output ports. The first amplification module is configured to provide first stage amplification to a received input signal and produce from the amplified input signal a number of output signals, each substantially matching the input signal. Also included is a first gain control device having a number of gain input ports respectively coupled to the first output ports and a gain output port coupled to at least one of the first input ports. The first gain control device is configured to control a gain of the first amplification module. Next, a number of second amplification modules corresponding to the number of output signals has a number of second input ports respectively coupled to the first output ports. Each second amplification module is configured to receive a control signal from the second gain control device, provide second stage amplification to a corresponding one of the number of output signals based upon the control signal and produce an amplified output signal. | 11-05-2009 |
20110274151 | Upstream Adaptive Modulation in a Communications System - A system and method for providing upstream adaptive modulation. Burst parameters associated with a range of data interval usage codes (IUCs) are defined. Each of the data IUCs has a different modulation order and forward error correction (FEC). The SNR and codeword error rate for each satellite modem in the network are monitored. The data IUCs are dynamically assigned to different satellite modems within an upstream channel based on SNR and/or codeword error rate to enable each of the satellite modems in the upstream channel to achieve maximum bandwidth efficiency during upstream data transmissions. Bandwidth requests are received from the satellite modems and granted. The grant includes the assigned data IUC. The data bursts received in the upstream channel are each processed using the parameters from the assigned IUC for each of the satellite modems sending data in the upstream channel. When any of the satellite modems' SNR and/or codeword error rate changes, the data IUC for that satellite modem is changed accordingly. | 11-10-2011 |
20130021100 | Method and System for Multiple Tuner Application Using a Low Noise Broadband Distribution Amplifier - An active splitter circuit arrangement includes a first amplification module having a number of first input ports and first output ports. The first amplification module is configured to provide first stage amplification to a received input signal and produce from the amplified input signal a number of output signals, each substantially matching the input signal. Also included is a first gain control device configured to control a gain of the first amplification module. Next, a number of second amplification modules corresponding to the number of output signals has a number of second input ports respectively coupled to the first output ports. Each second amplification module is configured to receive a control signal from the second gain control device, provide second stage amplification to a corresponding one of the number of output signals based upon the control signal and produce an amplified output signal. | 01-24-2013 |
Patent application number | Description | Published |
20100278098 | High Speed Data Service Via Satellite Modem Termination System and Satellite Modems - A satellite communication system includes a satellite earth station operably coupled to a data network, and a plurality of satellite modems, each satellite modem of the plurality of satellite modems communicating in an upstream and downstream data communication mode with the satellite earth station via at least one servicing satellite. The satellite earth station includes a host processor for receiving data packets from the data network and processing DOCSIS management packets, a DOCSIS MAC coupled to the host processor for encrypting the transmit packet data from the host memory, framing data in MAC headers and inserting MAC timestamps in the transmit packet data, a satellite modulator coupled to the DOCSIS MAC for modulating the encrypted transmit packet data to generate downstream output data for transmission to at least one of the plurality of satellite modems, a burst demodulator for demodulating upstream data received from at least one of the plurality of satellite modems, and a turbo decoder coupled to the burst demodulator and the DOCSIS MAC for turbo decoding the demodulated data from the burst demodulator and sending the decoded data to the DOCSIS MAC. The DOCSIS MAC sends DOCSIS management packets portion of the decoded data to the host processor and sends transmit packet data portion of the decoded data to the data network. | 11-04-2010 |
20120270603 | DEVICE, SYSTEM, AND METHOD FOR PROVIDING WIRELESS DATA ACCESS, DIGITAL TV ACCESS, RADIO, AND STORAGE CAPABILITY - A portable memory device dimensioned and configured as any of a removable flash memory card, a USB flash drive, and a jump drive and a method of wireless communication, wherein the portable memory device comprises a single housing component; a data storage component within the single housing component; and a wireless receiver operatively connected to the data storage component and within the single housing component, wherein the wireless receiver is adapted to receive wireless signals comprising radio signals, satellite signals, TV signals, and Bluetoothâ„¢ specification signals, and wherein the wireless receiver is adapted to wirelessly communicate with a LAN. The portable memory device may further comprise an interface component adapted to connect to a host computing device. Preferably, the TV signals comprise mobile TV signals. | 10-25-2012 |
Patent application number | Description | Published |
20130292613 | CATHODE MATERIAL FOR A LITHIUM-SULFUR BATTERY - A method for producing a cathode material for a cathode of a galvanic cell, such as a lithium or natrium sulfur cell. In order to improve the electric and ionic conductivity, the sulfur accessibility and utilization, elemental sulfur, at least one electrically conductive component and a solvent or a solvent mixture are mixed in method step a), the elemental sulfur being completely dissolved in the solvent or in the solvent mixture, and the solvent or solvent mixture is removed in a method step b). | 11-07-2013 |
20140030580 | BATTERY SYSTEM FOR A LITHIUM-SULFUR CELL - A battery system includes: a battery which includes a sulfur-containing polymer cathode and an anode containing lithium and having an active surface area; and a pressure-exerting device configured to apply, at least during some periods of operation of the battery, anisotropic pressure to the battery, one component of the pressure being perpendicular to an active surface area of an anode of the battery. | 01-30-2014 |
20140030603 | ELECTRODE FOR AN ELECTROCHEMICAL ENERGY STORE AND METHOD FOR MANUFACTURING SAME - An electrode for an electrochemical energy store, in particular a cathode for a lithium-sulfur battery. To obtain a particularly good rate capability, the electrode includes an electrically conductive matrix, in particular having a binder and a conductive additive. Locally delimited active areas are situated in the electrically conductive matrix, and the active areas have an active material, a conductive additive, and a binder. Moreover, an energy store is provided, such as a lithium-sulfur battery in particular, and a method for manufacturing an electrode is also provided. | 01-30-2014 |
20140072698 | ELECTRODE AND METHOD FOR MANUFACTURING AN ELECTRODE - An electrode for an energy store, in particular for a lithium-ion battery. To achieve a particularly good and long-term stable capacitance, the electrode includes an active material, optionally a binder, optionally a conductive additive, and a sorption agent; intermediate stages of the active material arising during a charging and/or discharging procedure of the energy store may be immobilized by the sorption agent. Furthermore, also described is a method for manufacturing an electrode for an energy store, and the use of a sorption agent for manufacturing an electrode for an electrochemical energy store. | 03-13-2014 |
20140154589 | CATHODE MATERIAL FOR AN ALKALI-SULFUR CELL - In a method for preparing a cathode material for an alkali-sulfur cell, e.g., a lithium-sulfur cell, at least one polyacrilonitrile-sulfur composite material and elemental sulfur are mixed, in order to increase the voltage, the capacitance and the energy density. | 06-05-2014 |
20140234692 | SEPARATOR FOR AN ENERGY STORE AND AN ENERGY STORE - A separator for an energy store. The separator may be used in a lithium-sulfur battery in particular. To achieve improved cycle stability, the separator has at least one first layer and at least one second layer, the at least one first layer containing a material having an affine property with respect to at least one active electrode material, and the at least one second layer containing a material having a repellent property with respect to at least one active electrode material. The at least one first layer and the at least one second layer may be situated directly adjacent to one another. Also described is an energy store including the separator. | 08-21-2014 |
20140326043 | Energy store, system including the energy store, and method for ascertaining the state of health of an energy store - An energy store, in particular to a lithium-based energy store. In order to make a simple and exact determination of a state of health, e.g., the aging condition, possible, the energy store includes at least one cell having an anode, a cathode, and an electrolyte which is situated between the anode and the cathode, at least one cell having an outlet for conveying functional material from the cell to an analysis unit and the outlet being connectable to the analysis unit in a fluid-tight manner. Also described is a system including the energy store and an analysis unit, and a method for ascertaining a state of health of an energy store. | 11-06-2014 |
20140327911 | Energy store system and state detection system including the energy store system - An energy store system, including at least one cell element situated in a cell region having an anode, a cathode and an electrolyte system that is situated between the anode and the cathode and that is particularly at least partially liquid, the anode, the cathode and/or the electrolyte system being configured so that, as a function of a charging or discharging process of the cell element, functioning material is situated in the electrolyte system, and the functional material situated in the electrolyte system being ascertainable qualitatively and/or quantitatively. Because of such an energy store system, operating states of an energy store or a cell may be ascertained particularly simply and accurately. Also described is a related state detection system. | 11-06-2014 |
20140342214 | SEPARATOR HAVING A POLYSULFIDE BARRIER LAYER FOR LITHIUM-SULFUR CELLS - A lithium-sulfur cell includes a lithium-containing anode, a sulfur-containing cathode and a separator arranged between the lithium-containing anode and the sulfur-containing cathode. To suppress a shuttle mechanism and to prevent a loss of active material, the separator includes a base layer and a polysulfide barrier layer. The polysulfide barrier layer is formed on the cathode side of the separator. | 11-20-2014 |
20150017487 | Safety System for Batteries - A battery, particularly a lithium-metal battery or a lithium-ion battery, having at least one galvanic cell surrounded by a cell housing. To increase the safety of the battery and to close up again a cell opened by a safety device or by a leakage, the inner chamber of the cell housing of the at least one cell includes a first chemical component, a chamber bordering on at least one section of the outer side of the housing including a second chemical component; a solid reaction product being developable by the chemical reaction of the first and second chemical components. The first component is containable in the electrolyte of the cell and the second component in a cooling and/or tempering arrangement. Also described is a cooling and/or tempering arrangement based on it, and an electrolyte, an electrolytic liquid, a safety system, a method and a mobile or stationary system. | 01-15-2015 |
20150129810 | METHOD FOR MANUFACTURING A POLYACRYLONITRILE-SULFUR COMPOSITE MATERIAL - A method is described for manufacturing a polyacrylonitrile-sulfur composite material, including the following method steps: a) providing a matrix material; b) optionally adding sulfur to the matrix material; c) adding polyacrylonitrile to the matrix material to produce a mixture made of sulfur and polyacrylonitrile; and d) reacting sulfur and polyacrylonitrile. A composite material manufactured in this way may be used in particular as an active material of a cathode of a lithium-ion battery and offers a particularly high rate capacity. In addition, methods are provided for manufacturing an active material for an electrode. | 05-14-2015 |
20150155560 | METHOD FOR MANUFACTURING A POLYACRYLONITRILE-SULFUR COMPOSITE MATERIAL - A method is provided for manufacturing a polyacrylonitrile-sulfur composite material, the polyacrylonitrile-sulfur composite material having an sp | 06-04-2015 |
20160111701 | Separator and galvanic cell providing robust separation of anode and cathode - A separator having a first polymer diaphragm and a second polymer diaphragm and a layer between the first polymer diaphragm and the second polymer diaphragm including particles featuring low elasticity, the first polymer diaphragm and the second polymer diaphragm being interconnected, which may be periodically, by first support elements. In addition, a galvanic cell and a battery having such a separator are provided. | 04-21-2016 |