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Adaptive power control in wideband CDMA cellular systems (WCDMA) and methods of operation,Adaptive power control based on a rake receiver configuration in wideband CDMA cellular systems (WCDMA) and methods of operation,Shared signaling channel,Phase shift based precoding method and transceiver for supporting the same,Distributed dynamic channel allocation technique for multi-carrier CDMA cellular systems with mobile base stations

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870 results about "Channel power" patented technology

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Adaptive power control in wideband CDMA cellular systems (WCDMA) and methods of operation

InactiveUS6690652B1Maintain conductivityMaximizes controlEnergy efficient ICTFrequency-division multiplex detailsChannel powerControl signal

A WCDMA system includes a Base Station (BS) transmitter, or forward transmitter and a pilot channel that transmits control signals between the BS and a Mobile Station (MS) to reconfigure their transmitter/receiver. Reconfiguration is performed according to the prediction of the channel attenuation and the threshold set at the BS or MS based on its channel power probability density function separated into three distinct equal probable regions. In one embodiment, Seamless Rate Change (SRC)/Transmitter Power Control (TPC) logic uses the predicted channel attenuation to signal both the transmitter and the receiver in a channel to reconfigure their transmit power level according to the power density function (pdf) of the channel power and threshold level. A transmission rate is reduced when the power level is below the threshold and increased when the channel power is above threshold. The pilot channel is used to signal the mobile station and the base station.

Adaptive power control in wideband CDMA cellular systems (WCDMA) and methods of operation

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Owner:IBM CORP

Adaptive power control based on a rake receiver configuration in wideband CDMA cellular systems (WCDMA) and methods of operation

InactiveUS6621808B1Maximizes controlMaximize throughputPower managementTransmission control/equalisingChannel powerOperational system

A WCDMA system includes a Base Station (BS) or forward transmitter and a pilot channel that transmits control signals between a Mobile Station (MS) and BS to reconfigure their transmitter/receiver according to the prediction of the channel power and channel power probability density function separated into three distinct equal probable regions. Data signals are encoded using a one-half Viterbi encoder and interleaved. The interleaved data bits are modulated using Quadrature Phase Shift Keying (QPSK) modulation. The QPSK data is multiplexed with the pilot channel and spread by an appropriate code in an OFDM transmitter modified by a long code. Output of the transmitter may be provided to two diverse antennas for reliable communications to the receiver. Data may be received at two diverse antennas. The outputs are provided to match filters coupled to a coherent rake receiver and a channel prediction system. The future attenuation of the channel coefficients and power are determined by the prediction system for several milliseconds. The power levels of each finger in the Rake receiver can be predicted and the strongest ones used in determining the optimum transmitter power or rate control for operating the system transmitters and receivers based on computing a long range power prediction of each finger of a rake receiver.

Adaptive power control based on a rake receiver configuration in wideband CDMA cellular systems (WCDMA) and methods of operation

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Owner:WISTRON CORP

Shared signaling channel

ActiveUS20070097853A1Fixed bandwidth overhead for the channelTransmission path divisionSignal allocationCommunications systemChannel power

A shared signaling channel can be used in an Orthogonal Frequency Division Multiple Access (OFDMA) communication system to provide signaling, acknowledgement, and power control messages to access terminals within the system. The shared signaling channel can be assigned to a predetermined number of sub-carriers within any frame. The assignment of a predetermined number of sub-carriers to the shared signaling channel establishes a fixed bandwidth overhead for the channel. The actual sub-carriers assigned to the channel can be varied periodically, and can vary according to a predetermined frequency hopping schedule. The amount of signal power allocated to the signaling channel can vary on a per symbol basis depending on the power requirements of the communication link. The shared signaling channel can direct each message carried on the channel to one or more access terminals. Unicast messages allow the channel power to be controlled per the needs of individual communication links.

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Owner:QUALCOMM INC

Phase shift based precoding method and transceiver for supporting the same

ActiveUS20070280373A1Solution has disadvantageNear-field transmissionSpatial transmit diversityChannel powerTransceiver

A method of transmitting data using a generalized phase shift based proceding or an extended phase shift precoding scheme in a multiple-antenna system using a plurality of subcarrier and a transceiver for supporting the same are disclosed. A phase shift based precoding matrix may be generalized and determined by a product of a diagonal matrix for phase shift and a unitary matrix for maintaining orthogonality in spatial domain. The diagonal matrix may be extended by a product of a proceding matrix for increasing channel power and the diagonal matrix for phase shift. The design of the transceiver can be simplified or communication efficiency can be improved by generalizing and extending the phase shift based proceding.

Phase shift based precoding method and transceiver for supporting the same

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Owner:LG ELECTRONICS INC

Distributed dynamic channel allocation technique for multi-carrier CDMA cellular systems with mobile base stations

InactiveUS7373151B1Light loadNetwork traffic/resource managementRadio/inductive link selection arrangementsChannel powerDynamic channel

A distributed dynamic channel allocation algorithm for a multi-carrier CDMA cellular system having at least one mobile base station. The distributed dynamic channel allocation algorithm uses channel power measurements from both the requesting mobile station and the mobile base station attempting to allocate an available resource to the mobile station. The distributed dynamic channel allocation algorithm attempts to allocate the best available resource for the requesting mobile station, in terms of interference, while minimizing the amount of interruption that the allocated resource may cause to existing connections in neighboring cells. Thus, the distributed dynamic channel allocation algorithm follows a “least-interference, least-interruption” strategy. The distributed dynamic channel allocation algorithm is load balancing, since it tends to assign new resources to mobile base station with lighter loads.

Distributed dynamic channel allocation technique for multi-carrier CDMA cellular systems with mobile base stations

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Owner:WSOU INVESTMENTS LLC +1

Leader sequence detection method and device for random access channel

ActiveCN102316601AReduce computationReduce complexityBaseband system detailsWireless communicationChannel powerTime delays

The invention discloses a leader sequence detection method and a device for a random access channel. The method comprises the following steps that: sub carrier waves of a leader sequence are extracted, the related operation is carried out with the corresponding local root sequence mask in the frequency domain to obtain the time domain channel power time delay spectrum power delay profile (PDP); the noise estimation is carried out on the PDP to obtain the noise estimation value; the width and an initial position of a detection window are calculated; the peak searching is carried out on the determined current detection window; the signal-to-noise calculation is carried out according to the searched peak and the noise estimation value to obtain the corresponding signal-to-noise ratio; and the signal-to-noise ratio and the judgment threshold are compared, and the detected leader sequence is determined in the current detection window when the signal-to-noise ratio is greater than the judgment threshold. The leader sequence detection method the device have the advantages that the simplification processing is respectively carried out on the relative operation, noise estimation and signal-to-noise ratio operation processes in the detection process, so the goals of reducing the operation quantity in the leader sequence detection process and reducing the processing complexity are realized.

Leader sequence detection method and device for random access channel

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Owner:WUHAN HONGXIN TELECOMM TECH CO LTD

Frequency-domain subchannel transmit antenna selection and power pouring for multi-antenna transmission

ActiveUS20050113041A1Power managementPolarisation/directional diversityCommunication qualityFrequency spectrum

A system comprises a wireless device that communicates across a spectrum having a plurality of sub-channels. The wireless device comprises a plurality of antennas through which the wireless device communicates with another wireless device, wherein each antenna communicates with the other wireless device via an associated communication pathway. The wireless device further comprises sub-channel power analysis logic coupled to the antennas and adapted to determine which communication pathway has the highest communication quality on a sub-channel by sub-channel basis. The wireless device still further comprises diversity selection logic coupled to the sub-channel power analysis logic and adapted to determine a weighting vector for an associated antenna based on the communication quality, wherein the weighting vector specifies a relative transmission power for each sub-channel for the associated antenna.

Frequency-domain subchannel transmit antenna selection and power pouring for multi-antenna transmission

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Owner:TEXAS INSTR INC

Method and apparatus for a control channel power allocation in a communication system

InactiveUS7206598B2Power managementError preventionChannel powerCommunications system

An apparatus and a method for a control channel power allocation in a communication system are disclosed. The method of control channel power allocation in an embodiment includes sorting a plurality of access terminals in an order of increasing required medium access control (MAC) channel power into a plurality of bins, sorting the access terminals with equal required MAC channel power in an order of decreasing forward link signal to interference and noise ratio (FL_SINR) if two or more access terminals have equal required MAC channel power, and determining total available ARQ power based upon total MAC channel power, total power allocated to reverse power control (RPC) channels, and total power allocated to reverse activity bit (RAB) channels.

Method and apparatus for a control channel power allocation in a communication system

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Owner:QUALCOMM INC

Channel estimation for OFDM communication systems including IEEE 802.11A and extended rate systems

ActiveUS7453793B1Improve signal-to-noise ratioModulated-carrier systemsChannel estimationTime domainChannel power

Channel estimation techniques are provided for a receiver of a wireless communication system using orthogonal frequency division multiplexing (OFDM), including legacy 802.11a and various extended rate systems. Training signals are received from one or more receive antennas. An estimated channel impulse response is computed from the received training signals by reference to a training sequence. The estimated channel impulse response is truncated in the time domain based on channel power and noise data. Channel response tracking techniques may also be implemented to correct for variations in channel response over the transmission time of a packet.

Channel estimation for OFDM communication systems including IEEE 802.11A and extended rate systems

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Owner:QUALCOMM INC

Channel power adjustment based on positional information of area restricted self-organizing subnets

ActiveUS20150139124A1Power managementNetwork topologiesChannel powerComputer science

Disclosed is a channel power adjustment method and system based on positional information of plural self-organizing subnets in a restricted area. The method includes a first setting step of setting, based on the positional information of the plural self-organizing subnets, a positional priority for each of the plural self-organizing subnets; and a first adjustment step of adjusting, at least partially based on the positional priorities of the plural self-organizing subnets, a power of a first device in a first self-organizing subnet working in a first channel, satisfying a predetermined rule to a first power of the first channel.

Channel power adjustment based on positional information of area restricted self-organizing subnets

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Owner:RICOH KK

Method and apparatus for a control channel power allocation in a communication system

InactiveUS20050020295A1Power managementError preventionCommunications systemChannel power

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Owner:QUALCOMM INC

CDMA power control for paging and initial traffic channel power

InactiveUS6963750B1Power managementTransmission control/equalisingChannel powerCode division multiple access

A code-division multiple access power control for paging channel power and initial traffic channel power dynamically determines optimum initial channel power in accordance with pilot signal strength of a pilot signal as received at a mobile station and current forward link loading of the desired sector. The optimum initial paging channel power and initial traffic channel power may be determined either at a base station or a mobile switching center of the mobile communication system. A paging signal or call is transmitted from the base station to the mobile station over a paging channel and a traffic channel at the optimum paging channel and initial traffic channel power.

CDMA power control for paging and initial traffic channel power

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Owner:LUCENT TECH INC +1

Application of selecting round key XOR input to perform side-channel power analysis of SM4 cryptographic algorithm

ActiveCN103227717AExtended Side Channel Energy Analysis MethodEfficient analysisEncryption apparatus with shift registers/memoriesComputer hardwareChannel power

The invention discloses an application of selecting round key XOR input to perform side-channel power analysis of an SM4 cryptographic algorithm. The application is characterized in that in the process of the side-channel power analysis of the SM4 cryptographic algorithm, S boxes or round functions are selected to serve as attack points to establish a Hamming distance (HD) model, the round key XOR input is taken as a preceding state v1 of the HD model, and when the S boxes are attacked, the subsequent state v2 of the HD (v1, v2) model is S box output; and when the round functions are attacked, the subsequent state v2 of the HD (v1, v2) model is output/input of the round functions. The method can be applied to the side-channel power analysis of a CPA (correlation power analysis) and DPA (differential power analysis) of the SM4 cryptographic algorithm. With the adoption of the method, the correlation between a right guessing secret key and a power message is improved, the effectiveness of the analysis is enhanced, and the success rate is increased.

Application of selecting round key XOR input to perform side-channel power analysis of SM4 cryptographic algorithm

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Owner:国家密码管理局商用密码检测中心

Device and a method for 3D printing and manufacturing of materials using quantum cascade lasers

ActiveUS20160082662A1More compact in sizeAbsorption of radiant energyAdditive manufacturing apparatusSemiconductor laser arrangementsChannel powerEngineering

A 3D printer device utilizing at least one Quantum Cascade Laser (QCL) image head having at least one beam focused in a focal plane of the device for building on a surface of the device a 3D model of a target object from a digital image. The inventive 3D printer is more compact in size due to the use of QCL image heads, which provides focused wavelengths of QCLs matching the absorption properties in plastics for more efficient absorption of the radiant energy. Each QCL channel power in the inventive 3D printer can be doubled by combining two lasers with a polarization beam splitter. The QCL image head is provided with Pulse Width Modulation (PWM) for compensating for imaging speed. The invention includes a method for scaling up the building speed of 3D printing regardless of detail level. The invention discloses an affordable 3D printer using QCL technology while maintaining high standards of resolution, use of quality materials, and rapid building speeds.

Device and a method for 3D printing and manufacturing of materials using quantum cascade lasers

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Owner:3DM DIGITAL MFG LTD

Method and system for dynamic automatic optimization of CDMA network parameters

InactiveUS20050176419A1Power managementNetwork traffic/resource managementTelecommunicationsChannel power

Our invention is a method and system for solving the problem of blocked calls by load balancing in which overloaded sectors reduce their coverage region, thereby, shedding users, and the surrounding under-loaded sectors increasing their coverage to pick up the shed users. The users are shed from one sector to another by growing or shrinking the relevant sectors through adjustment of the overhead channel power. The overhead channel power allocation parameter is adjustable by the network operator. The setting for the overhead channel power allocation is increased for overloaded sector and decreased for under loaded sector.

Method and system for dynamic automatic optimization of CDMA network parameters

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Owner:TELCORDIA TECHNOLOGIES INC

Plaintext or ciphertext selection based side channel power analysis attack method on round function output of SM4 cipher algorithm

InactiveCN104202145APractical applicabilityIncrease flexibilityEncryption apparatus with shift registers/memoriesComputer hardwarePlaintext

The invention discloses a plaintext or ciphertext selection based side channel power analysis attack method on round function output of the SM4 cipher algorithm. The method includes the steps of S1, selecting plaintext or ciphertext to input X<i+0>, X<i+1>, X<i+2> and X<i+3> on the condition of allowing the exclusive OR result of the X<i+1>, X<i+2> and X<i+3> to be a constant value and guaranteeing randomness of the X<i+0>, utilizing side channel power attack processes to attack the output C of linear transform L of each round of the first four round functions, and deducing inversely to acquire the round key rk of the first four round functions in encryption or decryption according to the output C; S2, according to the round keys rk<0>, rk<1>, rk<2> and rk<3> of the first four found functions, inversely calculating the initial key by a key expansion algorithm. The method can realize power analysis attack by means of multiple attacks and can attack with selection of proper-length bits according to actual computing capacity, thus flexibility, effectiveness and success rate of analysis are improved.

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Owner:CHENGDU UNIV OF INFORMATION TECH +2

Optical signal level adjustment system, information analysis/control signal generation apparatus in the same system, and information analysis/control signal generation method

ActiveUS20110311216A1Increase in channel power can be preventedAvoiding characteristicLaser detailsWavelength-division multiplex systemsChannel powerInformation analysis

The present invention enables to prevent transmission characteristics from deteriorating due to the nonlinear effect in the transmission path caused by an increase in the channel power when a cable disconnection occurs. An optical signal level adjustment method comprises the steps of: obtaining, based on one or more optical signal disconnections which are detected per wavelength block and each of which is detected by a signal disconnection detection section included in each of terminal station devices, a location at which the optical signal disconnection has occurred, a combination of a terminal station device and a wavelength block, and a dummy light adjustment amount, said combination being required to be subjected to adjustment of transmission dummy light, said combination and said dummy light adjustment amount corresponding to the location; and transmitting, to the terminal station device which is required to be subjected to adjustment of the transmission dummy light, a control signal for adjusting the intensity of the dummy light in the obtained wavelength block by the dummy light adjustment amount.

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Owner:NEC CORP

Phase shift based precoding method and transceiver for supporting the same

ActiveUS20100074309A1Solution has disadvantageNear-field transmissionSpatial transmit diversityTransceiverChannel power

A method of transmitting data using a generalized phase shift based precoding or an extended phase shift precoding scheme in a multiple-antenna system using a plurality of subcarrier and a transceiver for supporting the same are disclosed. A phase shift based precoding matrix may be generalized and determined by a product of a diagonal matrix for phase shift and a unitary matrix for maintaining orthogonality in spatial domain. The diagonal matrix may be extended by a product of a precoding matrix for increasing channel power and the diagonal matrix for phase shift. The design of the transceiver can be simplified or communication efficiency can be improved by generalizing and extending the phase shift based precoding.

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Owner:LG ELECTRONICS INC

Method and apparatus for interference mitigation in heterogeneous network using beamforming

InactiveUS20120190378A1Power managementNetwork traffic/resource managementChannel powerSignal-to-interference-plus-noise ratio

A method and apparatus provide interference mitigation in a heterogeneous network using beamforming. In the method, a macro Mobile Station (MS) receives a broadcast message including a Precoding Matrix Index (PMI) set restricted in a macro cell, measures a Signal-to-Interference plus Noise Ratio (SINR) and a channel power from an adjacent femto Base Station (BS) and calculates a PMI, determines whether to request a dedicated frequency resource for a macro MS on the basis of the measured SINR, the channel power from the adjacent femto BS, and the calculated PMI, and requests the dedicated frequency resource for the macro MS from a macro BS.

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Owner:SAMSUNG ELECTRONICS CO LTD

Dynamic Adjustment of the pilot-channel, paging-channel, and sync-channel transmission-power levels based on forward-link and reverse-link RF conditions

ActiveUS7787899B1Power managementRadio transmissionQuality of serviceChannel power

Methods and systems are provided for dynamic adjustment of the pilot-channel, paging-channel, and sync-channel transmission-power levels based on forward-link and reverse-link RF conditions. In an exemplary embodiment, a base station provides service on a carrier in a wireless coverage area, and computes both an E_c/I_orvalue and a reverse noise rise (RNR) value for the carrier. Based at least in part on the E_c/I_orvalue and at least in part on the RNR value, the base station adjusts at least one of a pilot-channel power level, a paging-channel power level, and a sync-channel power level for the carrier. As an example, if (a) E_c/I_oris above a first threshold and (b) RNR is below a second threshold, the base station may increase all three of the power levels, so as to improve service quality and coverage, among other advantages.

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Owner:SPRINT SPECTRUM LLC

Channel condition estimation for pilot coefficient selection

ActiveUS20050094738A1Good estimateReduce speedError preventionFrequency-division multiplex detailsChannel powerCommunications system

A multi-carrier modulation communications system and method (100) for providing channel estimation that uses a transmitter for inserting pilot symbols in a digital multi-carrier modulated radio frequency (RF) signal and a receiver for receiving the pilot symbols in multi-carrier modulation RF signal. In order to provide channel estimation the receiver detects (101) channel power gains from a plurality of designated pilot symbols and calculates (103) both a speed parameter (S) and a multi-path parameter (M) for the channel receiving the pilot symbols. A channel model is then defined (105) based upon the speed parameter and multi-path parameter value and a predefined set of pilot coefficients is chosen (107) that substantially matches the channel model. The resulting set of pilot coefficients is then utilized (109) for optimizing pilot symbol interpolation.

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Owner:MOTOROLA SOLUTIONS INC

Mechanism to dectect an unstable wavelength channel and limit its impact on a ROADM network

ActiveUS20100202777A1Wavelength-division multiplex systemsTransmission monitoringChannel powerOptical add-drop multiplexer

A system and method for limiting the impact of an unstable wavelength on other wavelengths in a reconfigurable optical add/drop multiplexer (ROADM) network are disclosed. The method generally comprises measuring optical channel power at prescribed time intervals; for each measurement of channel power falling outside a predefined threshold, recording a threshold crossing event; comparing the recorded threshold crossing events to stored criteria indicative of an unstable wavelength channel; and removing an unstable wavelength from the ROADM network if the threshold crossing events exceed the stored criteria.

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Owner:AT&T INTPROP I L P

Multile input channel power control circuit

InactiveUS7808127B2Dc network circuit arrangementsBatteries circuit arrangementsChannel powerSignal conditioning

The disclosed apparatus and systems are adapted to implement dynamic power control in order to condition and store, and / or immediately utilize, energy from one or more available power inputs, whether the inputs are constantly, regularly, or intermittently available, singly or in various combinations. Power control circuits according to the invention provide means for dynamically responding to input availability and output requirements in order to prioritize input energy selection, input signal conditioning, and output power delivery adapted to the application and operating environment.

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Owner:TRIUNE IP

Method and device for evaluating and improving the quality of transmission of a telecommunications signal through an optical fiber

ActiveUS7149424B2Improve transmission qualityWavelength-division multiplex systemsTransmission monitoringTelecommunications linkChannel power

A system and method for improving the transmission quality of a WDM optical communications system begins by determining the bit-error rate for an optical channel before forward error correction is performed at a receiver. The pre-corrective bit-error rate is fed back through a feed back circuit that includes a parameter adjustment module which adjusts an optical signal parameter based on the bit-error rate. As examples, the signal parameter may be a channel power, dispersion, signal wavelength, the chirp or eye shape of an optical signal. The feedback circuit may also adjust various parameters within the WDM system, including amplifier gain, attenuation, and power for one or more channels in the system. By adjusting these parameters based on a pre-corrective bit-error rate, transmission quality is improved and costs are lowered through a reduction in hardware.

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Owner:XIEON NETWORKS SARL

Qualifying available reverse link coding rates from access channel power setting

InactiveUS20060088021A1Power managementEnergy efficient ICTDigital dataChannel power

Data rate allocation decisions are made for a communications channel, such as a wireless reverse link connection. A first parameter used in this determination is a path loss, which is determined by the following process. First, a message is sent from a first station to a second station, such as on a paging channel. The message indicates a forward Effective Radiated Power (ERP) of a pilot signal transmitted by the first station. The second station then determines the received signal strength of this pilot signal, taking into account receiver gains. The path loss can then be estimated by the second station as the difference between the forward ERP data value that it received and the detected received pilot power. The second station also then preferably determines a transmit power level when transmitting a message back to the first station. This transmit power level information is encoded as a digital data word together with the forward path loss information as calculated by the first station. Upon receipt of these two pieces of information by the first station, the forward path loss estimate as calculated by the second station, and the output power value of the second station, the first station can then determine the amount of excess power available at the field unit. This excess power difference is indicative of the amount of dynamic range available in the transmit power amplifier in the particular second station. With this information, the first station can then make a determination as to whether coding rates which require a higher dynamic range will be acceptable for use by the particular second station.

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Owner:IPR LICENSING INC

High speed shared radio channel transmit power control

ActiveUS20070060187A1Improve throughputImprove latencyPower managementPolarisation/directional diversityChannel powerTransmitted power

To increase throughput efficiency and attain a higher achieved bit rate for data transmissions over a high speed shared channel, a variable transmit power increase factor is used to control the maximum rate at which the power at which data is transmitted over the high speed shared channel can increase. In one non-limiting implementation, the power increase factor F is varied with the current total downlink transmitted power available for high speed downlink transmission. For example, when the available high speed shared channel power is large, the variable transmit power increase factor assumes a more conservative value, e.g., a smaller F value, at the beginning of the high speed downlink transmission, and then a more liberal value, e.g., a larger F value, later during the high speed downlink transmission.

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Owner:TELEFON AB LM ERICSSON (PUBL)

Multile Input Channel Power Control Circuit

InactiveUS20100026100A1Dc network circuit arrangementsBatteries circuit arrangementsChannel powerInput selection

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Owner:TRIUNE IP

Semiconductor device including a plurality of chips and method of manufacturing semiconductor device

InactiveUS20090278167A1Reduced dimensionTransistorSemiconductor/solid-state device detailsChannel powerConductive materials

A semiconductor device includes a first chip and a second chip. The first chip includes a first conductivity type channel power MOSFET. The second chip includes a second conductivity type channel power MOSFET. The first chip and the second chip are integrated in such a manner that a second-surface drain electrode of the first chip and a second-surface drain electrode of the second chip face to each other and are electrically coupled with each other through a conductive material.

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Owner:DENSO CORP

Selecting Channel Bandwidth and Data Error Target Dynamically Based On a Determined Transmission Need

InactiveUS20090052322A1Improve quality experienceSystem capacity efficientlyEnergy efficient ICTError preventionChannel powerTelecommunications

In a mobile communication system having channels with different bandwidths, a channel bandwidth can be dynamically selected for transmitting data over a connection between a radio access network and a mobile station. According to the invention, a channel bandwidth and also a target for a data error rate for the transmission is selected based on a determined transmission need, i.e. a determined characteristics of the data to be transmitted and on a determined load of a communication resource, e.g. channel power and / or total carrier power used in a cell. By making it possible to dynamically select a data error rate, a connection can, by increasing the data error rate and consequently decreasing the channel power, carry on using a certain channel bandwidth even if at a first instance a load threshold level is achieved for the channel power or the total power used in the cell. Thereby, the capacity of the system can be increased, while at the same time the throughput over the connection is increased.

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Owner:TELEFON AB LM ERICSSON (PUBL)

Power-saving channel scanning for multi-channel broadcasting

InactiveUS20060225109A1Avoid temperature riseAvoid wastingTelevision system detailsColor television detailsDigital tuningChannel power

A power-saving channel scanning system and a method thereof for multi-channel broadcasting stops the scanning operation of a digital tuner installed in a broadcast receiving device (Set-Top Box (STB)) and switches to a power-saving mode when a cable is cut off or no signal is received in a multi-channel broadcasting system. The power-saving channel scanning system includes a broadcast receiving terminal measuring broadcasting channel powers in order and switching from a normal mode to a power-saving mode when the powers of all of the measured channels are outside the range of a predetermined normal channel power.

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Owner:SAMSUNG ELECTRONICS CO LTD

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