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17,451 | The method of claim 1 wherein the HDMI Vendor Specific InfoFrame with the change in the HDMIVideoFormat field or in the 3DStructure field is transmitted after the resolution is automatically switched to the second resolution but before the resolution is automatically switched back to the first resolution. | When switching from 3D video to 2D video instead of stopping the sending of the InfoFrame that transmits 3D information from the source device the video player 100 by changing the content of the packet of the InfoFrame that transmits 3D information which is transmitted from the source device it is possible to reduce the mute period before and after the video switching and it is therefore possible to further reduce the time required for the video switching. |
17,442 | The communication device 100 according to claim 1 wherein the dedicated receiving device 150 includes unique information that is recognizable by the transmitting unit 130. | A physical address Physical address which is required in order to perform the data communications by means of a HDMI cable is further recorded in the device information storing memory EDIDROM 121 and the transmitter source 110 obtains the physical address from the device information storing memory EDIDROM 121 ofthe receiver sink 120 and performs the address mapping process of enabling communications through HDMI.The address mapping is carried out by using the CEC line 132. |
21,494 | The method of claim 4 wherein the probability distribution associated with the probabilistic channel model is an estimated joint probability distribution. | The pruning test on whether a signal component is removed or should be kept is implemented by determining the signaltonoise ratio of a single component and comparing it to the threshold which depends on the estimated sparsity parameter.These conditions can also be empirically adjusted using simple SNRbased rules to compensate for model mismatches such as diffuse scattering numerical inaccuracies etc.or to retain the component above some desired SNRlevel as explained later in the detailed description. |
13,183 | A collisions avoiding method for avoiding collisions between vehicles 10 12 moving in a predetermined area 14 wherein said vehicles may include autonomous vehicles 10 and manned vehicles 12 characterised by storing a map covering at least said predetermined area said map including possible routes used by said vehicles 10 12 continuously updating a first set of data relating to present positions of vehicles 10 12 moving in said area continuously predicting specific paths of vehicles based on present positions and possible routes of said vehicles 10 12 preventing collisions between vehicles 10 12 by continuously comparing said predicted paths and possible routes to detect overlapping positions of different vehicles 10 12 and by forwarding interrupting commands to vehicles 10 12 heading to an overlapping position. | According to running state information of the own vehicle transmitted from the own vehicle sensor 4 the own vehicle track recording section 23 records a history of the own vehicle track.The own vehicle track reading section 24 reads the history of the own vehicle track recorded in the own vehicle track recording section 23 during a predetermined time e.g.5 sec.Here the predetermined time is the same as the time of the obstacle information stored in the obstacle information temporary storage section 21.According to the read history of the own vehicle track the own vehicle track reading section 24 outputs own vehicle actual track information concerning an actual track which is the track actually taken by the own vehicle to the actual own track collision probability calculating section 25. |
15,114 | The method for processing a touch screen terminal object according to any one of claims 3 to 5 before the receiving an icon placing instruction given by the user comprising obtaining the attribute information of the target object and searching the object operation database according to attribute information of an object that corresponds to each display icon in the container interface and the attribute information of the target object obtaining a first display icon and performing display processing on the first display icon so that the user identifies according to a display state of the first display icon that an object that corresponds to the first display icon is irrelevant to the target object wherein the first display icon is a display icon whose executable operation generated when the object that corresponds to the first display icon is associated with the target object is empty. | FIG.23 illustrates an example of a control operation upon collision between a function icon and a contents icon which shows an example where a particular contents icon collides with a lock icon function icon.This control operation may be substantially the same as the operation of FIG.15B excluding that a contents icon other than a function icon collides with the lock icon. |
22,169 | The industrial control system of one of claims 1 to 7 wherein the electronic device suspends communication during a sleep mode andor the electronic device includes at least one of a sensor and an actuator in communication with the industrial process or machine. | In certain embodiments the devices 38 40 42 and 44 may provide data such as alerts to the system 10.These alerts may be handled in accordance with the embodiments described below.FIG.2 depicts a block diagram of an embodiment of the industrial process control system 10 depicting various components in further detail.As described above the system 10 may include an alarm server 70 executed on the computer 28 coupled to the plant data highway 22 and the unit data highway 24.The computer 28 may include a memory 72 such as nonvolatile memory and volatile memory and a processor 74 to facilitate execution of the alarm server 70.The alarm server 70 may execute an alarm server process 76 for receiving processing andresponding to alarms received from the controllers 26 and 27.Multiple controllers such as the controllers 26 and 27 may be set up for redundant operations.That is should the controller 26 become inoperative the controller 27 may take over and continue operations. |
16,006 | The control method according to claim 10 wherein the reducing the power supply comprises referring to a duty value corresponding to the compensation coefficient that is stored in advance in the lookup table stored in the storage unit. | The average luminance calculator 200 calculates average luminance for one frame period as described above and outputs it. |
17,395 | A sensor network comprising multiple devices of Claim 1 wherein the sensor network is integrated in a structure and wherein the structure includes an aircraft a spacecraft a land craft a watercraft a mobile platform an infrastructure platform or a building. | MCU 5 receives sensor or switch signals and then uses the signals to generate control signals for manipulating SED 7 to produce a plurality of message symbols in a suitable Variable Pulse Width Modulation VPWM format.Transceiver 10 interfaced with bus 18 through resistors 200 and 202 and the termination network 11 accepts the message symbols from SED 7 and translates message symbols referenced with respect to a signal ground return circuit to message symbols referenced with respect to bus ground return.Transceiver 10 then transmits the messages over bus 18 in an analog VPWM format to other nodes 4. |
18,947 | The device according to claim 10 wherein said energy scavenging stage 5 6 comprises a storage capacitor 6 on which said output supply signal Vout is present connected between a first output terminal 5c and a second output terminal 5d of said interface stage 5 and wherein said interface stage 5 comprises a logic control unit 19 and a switch assembly 18a18d whose switching is controlled by said logic control unit 19 for causing cyclically storage of energy in said inductor 15 in a first interval of a switching period and transfer of energy onto said storage capacitor 6 in a second interval of the switching period at both polarities positive and negative of the electrical transduction signal Stransd | Then once the time interval TDELAY has elapsed and a minimum threshold value ITH has been reached for the current in the inductor 22b the first and second transistors 30 and 36 or likewise the third and fourth transistors 31 38 in the caseof negative halfwaves of the voltage VIN are controlled so as to transfer the energy accumulated to the capacitor 27load 28.This situation is shown schematically in Figure 4b. |
21,824 | A composition according to any one of the preceding claims wherein the LCPUFA is chosen among arachidonic acid ARA and docosahexanoic acid DHA preferably the LCPUFA is a mixture of ARA and DHA. | According to an embodiment the nutritional composition comprises iron.Generally iron is an essential component of several cellular functions such as the transport of oxygen mitochondrial electron transport and DNA synthesis.Brain tissue is overall rich in iron with concentrations differing according to brain structure and stage of development.Iron is also involved in the production of myelin in the synthesis of neurotransmitters and their breakdown.For example iron is essential for the synthesis of dopamine an important neurotransmitter for attention executive functioning and motivation.Iron has been implicated in the organization of axonal growth and synaptogenesis.Today iron deficiency is the most common single nutrient deficiency in the world.Associations between iron deficiency anaemia and deficit in cognitive or behavioural performance in children have been observed such as lower mood and an inability to concentrate and remember as well as poor motor development.Iron is thus important for brain development. |
19,465 | A laundry appliance 10 for treating a load of laundry according to a cycle of operation comprising a cabinet 12 a tub assembly 14 214 314 414 having a longitudinal axis 90 housed within the cabinet 12 and comprising a front tub section 50 250 350 450 having a first side wall 60 260 360 460 with a first draft forming a first acute angle 92 relative to the longitudinal axis 90 a rear tub section 54 254 354 454 having a second side wall 68 268 368 468 with a second draft forming a second acute angle 94 relative to the longitudinal axis 90 and at least one middle tub section 52 252 252a 252b 352 352a 352b 352c 352d 452 452a 452b provided between the front tub section 50 250 350 450 and the rear tub section 54 254 354 454 each of the at least one middle tub sections 52 252 252a 252b 352 352a 352b 352c 352d 452 452a 452b having at least a third side wall 76 76a 76b 276a 276b 376a 376b 376c 376d 476a 476b 476c 476d with at least a third draft forming a third acute angle 96 98 relative to the longitudinal axis 90 wherein the front 50 250 350 450 rear 54 254 354 454 and at least one middle tub sections 52 252 252a 252b 352 352a 352b 352c 352d 452 452a 452b are assembled such that the first draft the second draft and the at least a third draft are arranged in alternating directions. | Referring to FIGS.4 and 5 a tub 220 may have a first tub member 221 disposed at a front side of the tub 220 and a second tub member 223 disposed at a rear side of the tub 220.A crosssection of the tub 220 of FIG.4 may be similar to that shown in FIG.3 but embodiments are not limited thereto.For example the tub 220 may be formed by combining two tubs which are divided into the front side and the rear side and thus the tub 220 may have a crosssection similar to those of the tubs of the previous embodiments described with reference to FIGS.1 to 3 or derivatives thereof. |
21,754 | The operating method of claim 13 wherein the alarm event is generated by a real time clock RTC alarm of a power management integrated circuit PMIC. | It should be appreciated that the battery pack 30 can be stored at any suitable elevated temperature for any suitable period of time at anysuitable voltage and elevated state of charge and undergo any suitable number of forming cycles. |
15,829 | The apparatus 150 166 for optimizing a nonejection correction parameter of an inkjet head according to claim 1 or 2 wherein the controlling device 150 repeatedly executes the operations up to a predetermined number of times. | The optimal value selection chart 5 which corresponds to a defective recording element correction parameter selection chart has a composition in which a plurality of patches 6 7i i1 2...having the same tone L are arranged in the conveyance direction of the paper 3.Two types of patches are arranged in parallel a reference patch Iref which is indicated by reference numeral 6 and measurement patches IimeasPi which are indicated by reference numeral 7i i1 2....Here i is a suffix corresponding to each measurement patch.The reference patch Iref is a uniform image which is applied uniformly with a tone L.In the measurement patches IimeasPi a white stripe 8 which simulates the presence of an ejection failure nozzle is provided in one or more than one position with respect to the reference patch Iref in Fig.2 a white stripe 8 is provided in two positions in each measurement patch and an ejection failure correction parameter Pi is applied in actual practice or artificially on either side both sides of each white stripe 8 on either side in the x direction. |
20,469 | Injector 1 according to any of claims 1 to 11 wherein the armature 23 is axially movable relative to the valve needle 7. | The pole piece 37 has an inner recess 48.The retainer element 23 is arranged inside the inner recess 48 of the pole piece 37and axially moveable with respect to the pole piece 37.The pole piece 37 has a stop element 50 extending into the inner recess 48 of the pole piece 37 in radial direction.Preferably the stop element 50 is shaped as a ring element.The stop element 50 overlaps with the retainer element 23 when viewed in axial direction. |
13,821 | The method for cutting a honeycomb molded body according to claim 10 wherein the crosssectional shape of the honeycomb molded body is quadrangle in a direction vertical to the longitudinaldirection. | In the cutting method of the invention the fine line 2 may be stretched between two bobbins 8 as shown in Fig.1b. |
18,197 | The aqueous inkjet ink set according to any one of claims 12 to 14 wherein the one or more aqueous inkjet inks include a humectant selected from the group consisting of 2pyrrolidone glycerol and 12hexanediol. | The hydrophilic structural unit is not particularly limited as long as it is derived from a hydrophilic group containing monomer and it may be derived either from one type of hydrophilic group containing monomer or from greater than or equal to two types of hydrophilic group containing monomers.The hydrophilic group is not particularly limited and may be either a dissociative group or a nonionic hydrophilic group. |
19,782 | The media processing apparatus of any one of claims 7 to 9 wherein the criteria comprises at least one of granting control rights of the media processing apparatus to one of the plurality of devices selected based on an order of the receipt ofthe signals and granting the control rights to said one of the plurality of devices based on set priorities for each of the plurality of devices. | In command processing routine 80 base apparatus 10 first determines in step 81 whether or not a received command is a competitive command.If the command is not a competitive command then processing advances from step 81 to step 82.At step 82 main control section 21 of base apparatus 10 accepts the command. |
22,381 | The imaging system of any preceding claim wherein a stationary mirror of the set of stationary mirrors comprises a split mirror to split the field of view into two fields of view. | At step 408 as images of the bar code are brought within the field of view of the imaging device one or more of those imaging devices are captured. |
17,790 | The surgical instrument of any one of claims 1 to 6 or claim 15 wherein the surgical end effector comprises a pair of jaws wherein at least one of the jaws is selectively movable relative to the other jaw upon application of the firing motion thereto. | According to an embodiment of the present disclosure end effector 160 includes a cartridge assembly e.g.jaw member 164 and an anvil assembly e.g.jaw member 162 including an anvil portion for deploying surgical fasteners into body tissue and forming the surgical fasteners.End effector 160 is pivotably mounted about an axissubstantially perpendicular to the longitudinal axis of endoscopic portion 140.Cartridge assembly 164 houses a plurality of staples.Anvil assembly 162 is movable in relation to cartridge assembly 164 between an open position spaced from cartridge assembly 164 and an approximated or clamped position in juxtaposed alignment with cartridge assembly 164.Preferably the staples are housed in cartridge assembly 164 to apply linear rows of staples to body tissue.End effector 160 is attached to a mounting portion which is pivotably attached to a body portion.The body portion may be integral with endoscopic portion 140 of powered surgical instrument 100 or may be removably attached thereto to provide a replaceable or disposable loading unit.The loading unit may be connectable to endoscopic portion 140 through a bayonet connection.It is envisioned that the loading unit has an articulation link connected to the mounting portion of the loading unit and the articulation link is connected to the linkage rod so that the end effector 160 is articulated as the linkage rod is translated in the distalproximal direction along the longitudinal axis.Other means of connecting end effector 160 to endoscopic portion 140 to allow articulation may be used.For example a flexible tube or a plurality of pivotable members may be used. |
18,963 | The image processing device 100 according to claim 4 wherein the position estimating unit 156 is configured to calculate coordinate values of the second position from coordinate values expressing a preset first position and a function expressing the correspondence relationship. | The characteristics of the method of claim 1 as set out above advantageously satisfy the prefixed aims the duplicate articles captured in the first image can be arranged in threedimensional space in a totally random way and can even be additionally partially superposed among themselves. |
21,822 | A composition according to any one of the preceding claims wherein said composition is a preterm infant formula a human milk fortifier a starter infant formula a followon formula a baby food formula an infant cereal formula a growingup milk a medical food product for clinical nutrition or a supplement and preferably said composition is a preterm infant formula a human milk fortifier or a supplement. | According to an embodiment the nutritional composition comprises choline.Choline is a vitaminlike compound that is an essential part of the human diet as it is used by the body to produce acetylcholine.The human brain is rich in choline containing compounds.Choline is present in gray matter 10 of dry weight white matter 8 of dry weight and is a component of myelin 12 of dry weight.Without choline acetylcholine cannot be produced.Acetylcholine is one of the crucial brain chemicals involved in memory.The most abundant brain membrane phosphatide phsophatidylcholine requires three circulating precursors choline a pyrimidine e.g.uridine and a polyunsaturated fatty acid.Thus choline is an extremely important structural element for cells especially cell membranes and is essential for the process of breaking down fat for energy.In the nutritional composition of theinvention choline is preferably not specifically added but is contained and therefore naturally provided by other ingredients such as milk components andor from ingredient comprising phospholipids rich in DHA mentioned above for example. |
13,961 | The information processing system 10 according to claim 5wherein the task management unit 49 of the second mobile information terminal 12 presents the content of the task acquired from the server 14 to the user of the second mobile information terminal 12 in a mode in which the content can be edited. | The formatted information as shown in FIG.8 includes such data as user ID spot information ID terminal apparatus 2 type ID storage date storage time publicprivate setting related data IDs before after position information longitude x latitude y height z corresponding electronic map ID country name prefecture state name city town borough name address number name telephone number characteristics comment static image data movie image data and audio data.The user makes a setting for each of the items in the formatted information which establishes whether or not the that item will be permitted to be transferred to another user at the time of spot information exchange processing which is described later. |
18,419 | The control method according to claim 1 wherein the step of spraying the steam comprises spraying the steam for a predetermined time S14. | The water supply device 20 further includes a steam water supply pipe 24 for supplying the water to the steam generating device 30 and a steam valve 25 installed in the steam water supply pipe 24 for controlling the supply of the water into the steam generating device 30. |
22,714 | The secondary battery of claim 10 wherein the current limiting plate 112 comprises a metal plate comprising insulating coating layers on the first and second surfaces 1121 1122 thereof. | As shown in FIG.7A the variable plates 12 may have a conductive member 50 provided between a plurality of the variable plates 12 e.g.one or moreof the variable plates 13 14 and 15 may have the conductive member 50 provided thereon.The conductive member 50 may be formed of for example at least one material selected from the group consisting of aluminum Al indium In silver Ag and copper Cu. |
16,987 | Bend obtainable by a seamless steel pipe according to claim 1 having maximum hardness values measured at 1.5 mm to 2 mm depth from the surface not higher than 235 HV10 preferably not higher than 230 HV10. | First an alloy with the indicated chemical composition is manufactured.This steel as has already been mentioned should contain a percentage by weight of the following elements in the amounts described C 0.06 to 0.13 Mn 1.00 to 1.30 Si 0.35 max.P 0.015 max.S 0.003 max.Mo 0.10 to 0.20 Cr 0.10 to 0.30 V 0.050 to 0.10 Nb 0.020 to 0.035 Ni 0.30 to 0.45 Al 0.015 to 0.040 Ti 0.020 max.Cu 0.2 max.and N 0.010 max. |
18,148 | A controlledemission lighting device 1 comprising at least one light source 2 and an optical system 4 for the control of UGR index and luminance characterized in that the optical system 4 comprises a multilens optical element 8 formed by a plurality of lenses 9 arranged sidebyside along two directions and by a grid 10 located on an inner face 11 facing towards the light source 2 of the optical element 8. | This invention relates to illumination devices and systems as well as related functions and components and in particular it relates to illumination devices and systems useful in stage lighting and the light combining devices used in such systems. |
16,307 | An apparatus for a tracking area TA list in an Evolved Packet System EPS comprising a determining unit 201 configured to determine a TA currently visited by a user equipment UE and a paging area allocating unit 202 configured to allocate a TA list to the UE according to a history record of motion trace of UEs located in the TA currently visited by the UE wherein the TA list comprises multiple continuous adjacent TAs of the motion trace and the UE more probably moves to the multiple continuous adjacent TAs than other TAs. | In order to accomplish the above object a mobility management node according to the present invention is a mobility management node comprising mobility management means for correlating a home address in a home network of a mobile node with a co careof address in a network where the mobile node is located after movement binding storing means for storing the home address and the co address of the mobile node correlated with each other by the mobility management means transition detecting means for monitoring transition of the co address stored in the binding storing means and for detecting a prefix of the co address before the transition and a prefix of the co address after the transition transition history storing means for storing a transition frequency of the co address in correlation with theprefix of the co address before the transition and the prefix of the co address after the transition detected by the transition detecting means paging area forming means for extracting predetermined combinations of the prefix of the co address before the transition with the prefix of the co address after the transition stored by the transition history storing means and for generating paging area information by a set of the prefixes included in the extracted combinations and paging area notifying means for notifying the mobile node of the paging area information generated by the paging area forming means. |
18,682 | The secure access device 1 according to Claim 9 the secure zone of the storage device 4 storing the legit app program file 5 as well as corresponding preset authentication data and a preset control regulation characterized in that when the operating system 311 is accessing the secure area 41 of the storage device 4 for loading the legit app programfile 5 the preset authentication data and the preset control regulation and when the legit app program file 5 is executed in the operating system 311 to serve as the legit app program said protection unit 15 is further configured to transmit the first authentication data and the first control regulation to the legit app program so as to substitute the first authentication data and the first control regulation for the preset authentication data and the preset control regulation respectively. | The calculation equation used for an authentication information calculation by authentication information calculation section 1014 is determined by the pair of methods to be embedded.That is0 3ad of calc shown in FIG.5 indicates that when a pair of 0 3 is selected ad is used as the expression to calculate authentication information. |
14,290 | An ink jet recording method comprising ejecting the lightcurable ink composition for ink jet recording according to any one of the preceding claims onto a recording medium and curing the ejected lightcurable ink composition for ink jet recording by irradiation with ultraviolet radiation having an emission peak at a wavelength in the range of 350 to 420 nm. | Particular preferred pigments are C.I.Pigment Yellow 1 3 10 12 13 14 17 55 65 73 74 75 83 93 97 109 111 120 128 138 139 150 151 154 155 175 180 181 185 194 and 213. |
21,659 | A method comprising at an audio headset 101 comprising a microphone 103 one or more speakers 105 each configured for use with a human ear an audio connector 107 comprising a microphone output pin 109 and one or more speaker input pins 111 respectively connected to the one or more speakers 105 a microphone line 112 between the microphone output pin 109 and the microphone 103 a ground line 113 one or more input devices 114 115 116 in communication with the microphone line 112 a first circuit 117 configured for active signalling on the microphone line 112 a second circuit 118 configured for passive signalling on the microphone line 112 and a processor 120 in communication with the one or more input devices 114 115 116 determining at the processor 120 a present signalling mode when the present signalling mode comprises an active signalling mode and when the one or more input devices 114 115 116 is actuated generating active signals on the microphone line 112 using the first circuit 117 andwhen the present signalling mode comprises a passive signalling mode and when the one or more input devices 114 115 116 is actuated generating passive signals on the microphone line 112 using the second circuit 118. | Microphone interface 320 receives signals from microphone 131 and forwards the microphone signal to host 120 via host interface 310.Microphone interface 320 also detects the presence and usage of microphone 131 and provides an indication to host interface 310 as to whether microphone 131 is present or in use.Button interface 330 is coupled to a switchresistor network 350 which includes a series of resistors each coupled to a switch.The switches are controlled by buttons 133 except that one of the switches is controlled by the transducer signal.Button interface 330 forwards the detection of a button press and the detection of a transducer signal to host interface 310. |
22,515 | The pneumatic tire of claim 1 wherein the solution polymerized styrenebutadiene rubber is functionalized with an alkoxysilane group and at least one functional group selected from the group consisting of primary amines and thiols. | In order to reduce the rolling resistance and to improve the treadwear characteristics of tires rubbers having a high rebound have traditionally been utilized in making tire tread rubber compounds.On the other hand in order to increase the wet skid resistance of a tire rubbers which undergo a large energy loss have generally been utilized in the tires tread.In order to balance these two viscoelastically inconsistent properties mixtures of various types of synthetic and natural rubber are normally utilized in tire treads. |
22,531 | The switching device as claimed in claim 1 wherein the first switching circuit 30 comprises four sets of first power dividers 40a40d wherein each set of first power dividers receives one of the four sets of legacy LNB signals VL VH HH HL respectively thereby generating an output and a subswitching circuit 42a42n coupled to the four sets of first power dividers 40a40d and selecting one of the outputs of the four sets of first power dividers 40a40d according to the analog control signal Sa thereby outputting the first legacy LNB output signal L1 Ln. | This is achieved by a signal switching device and a satellite signal receiver according to claims 1 and 8 respectively.The dependent claims pertain to corresponding further developments and improvements. |
21,061 | A cooling apparatus comprising a first cooling element 5 with first channels 6 extending between a first manifold 1 and a second manifold 2 and with a base plate 9 with a first surface 10 for receiving a heat load from an electric component 11 and for passing said heat load into a fluid in the first channels 6 and a second cooling element 14 14 14 with second channels 16 16 extending between a third manifold 3 and a fourth manifold 4 the third manifold 3 of the second cooling element 14 14 14 is arranged to receive fluid from the second manifold 2 of the first cooling element 5 and to pass the received fluid via the second channels 16 16 to the fourth manifold 4 a first section 21 21 21 of the second cooling element 14 14 14 is provided with openings 19 for allowing an airflow 18 to pass through the first section 21 21 21 characterized in that the second cooling element 14 14 14 comprises a second section 22 22 22 provided with openings 19 and the cooling apparatus is configured to conduct the airflow 18 which has passed through the first section 21 21 21through the openings 19 of the second section 22 22 22. | The mounting base 1 comprises a first surface 2 for receiving one or more electric components 3 that generate a heat load during use.The same mounting base can be utilized for efficiently cooling a plurality of electric components that can be freely distributed over the first surface 2.When implemented in a drive for an electric motor such as in a frequency converter for instance the electric component or electric components may be a power semiconductor.The generated heat load is received by the mounting base 1 via the first surface 2. |
16,364 | An electrosurgical system comprising a radio frequency output stage configured to output at least one radio frequency waveform a current sensor coupled to the output stage and configured to output a first differentiated signal corresponding to a current of the at least one radio frequency waveform the current sensor coupled to a first conditioning circuit configured to integrate the first differentiated signal to output a processed current signal indicative of the current and a voltage sensor coupled to the output stage and configured to output a second differentiated signal corresponding to a voltage of the at least one radio frequency waveform the voltage sensor coupled to a second conditioning circuit configured to integrate the second differentiated signal to output a processed voltage signal indicative of the voltage wherein the first and second conditioning circuits have a substantially similar bandpass and phase response. | Fig.1 is a schematic illustration of a bipolar and monopolar electrosurgical system 1 according to one embodiment of the present disclosure.The system 1 includes one or more monopolar electrosurgical instruments 2 having one or more electrodes 3 e.g.electrosurgical cutting probe ablation electrodes etc.for treating tissue of a patient.Electrosurgical RF energy is supplied to the instrument 2 by a generator 20.The instrument 2 includes an active electrode 3 that is connected via a supply line 4 to an active terminal 30 of the generator 20 allowing the instrument 2 to coagulate ablate andor otherwise treat tissue.The energy isreturned to the generator 20 through a return electrode 6 via a return line 8 at a return terminal 32 of the generator 20.The system 1 may include a plurality of return electrodes 6 that are arranged to minimize the chances of tissue damage by maximizing the overall contact area with the patient.In addition the generator 20 and the return electrode 6 may be configured for monitoring socalled tissuetopatient contact to insure that sufficient contact exists therebetween to further minimize chances of tissue damage. |
19,139 | The mobile key of claim 3 wherein the memory stores definitions 24 of the predetermined waveform and wherein the radio frequency trigger circuitry comprises a waveform analyser circuitry configured to compare a received radio signal with the stored definitions of the predetermined waveform and upon determining on the basis of the comparison that the received radio signal has the predetermined waveform wake up the wireless communication circuitry. | In this context the transponder 520 remains in a dormant state when no motion is detected and in response to detected motion analyzes the motion to determine whether the motion meets a certain criteria.If the motion meets the criteria the transponder 520 enters an active state and sends UHF communication 501 and 502 upon continued detected motion.If no motion is detected and if no response is received from the base station 510 the transponder 520 enters a timeout mode.If the timeout mode lapses before receiving a response from the base station 510 the transponder 520 returns to the dormant state. |
20,557 | The combustor arrangement 10 according to any one of claims 3 to 5 wherein the housing 100 of the combustor arrangement 10 increases the crosssection of the combustion cavity between the first burner stage 20 towards the first burner reaction zone 21. | Combustor portion 20 also includes a plurality of outer premixed injection nozzles two of which are indicated at 80 and 81 that are disposed in an annular array radially outward from center injection nozzle 62.The term premixed injection nozzle should be understood to mean an injection nozzle in which fuel and air are mixed soas to have greater than a 50 mixedness or homogeneity.In accordance with one aspect of the exemplary embodiment premixed injection nozzles 80 and 81 have greater than 80 mixedness.As each outer premixed injection nozzle 80 81 is similarly formed a detailed description will follow with reference to premixed injection nozzle 80 with an understanding that premixed injection nozzle 81 includes corresponding structure.It should also be understood that the number of outer premixed injection nozzles can vary. |
21,105 | The device according to claim 17 wherein the primary particles 53 have a semiconductor of a wurtzite crystal structure. | FIGS.26A to 26C are schematic views showing a method for forming the discontinuous metal film 58 on the surface of the first powder body 52. |
20,044 | The pressure compensated subsea electrical system according to any one of claims 1 to 12 wherein the transformer and the power converter are arranged such that in use the transformer is arranged in a vertical position above the power converter. | The duct 30 and the connection portions 15 and 25 can be configured in various ways.In some embodiments a fluid passage can be provided between the inside of the duct 30 and the inside of the first andor second subsea enclosure 12 22.Providing such fluid passage has the advantage that dielectric liquid can flow between the inside of duct 30 and the insideof the respective subsea enclosure so that both the duct 30 and the respective subsea enclosure can be pressure compensated by means of a single pressure compensator.If a passage is provided between the interior of duct 30 and both subsea enclosures 12 22 only a single pressure compensator may be provided for balancing the pressure inside all three components 12 30 and 20. |
21,079 | A method according to any preceding claim wherein the binder polymer D is a methacrylic resin or a polyvinyl butyral resin. | The obtained samples were overcoated with an aqueous solution of polyvinyl alcohol Celvol 203 from Air Products having a hydrolysis degree of 88 to get a printing plate precursor having a dry coating weight after drying for 4 minutes at 90C as shown in Table 1.Table 1 Plates for examples and comparative examplesplatephotopolymer layer coating weight of the photopolymer layer coating weight of the overcoat layer exposure step preheat step1 Table 2 1.5 gm2 3 gm2 405 nm 30 mW platesetter ANDROMEDA from Lithotech 90C for 2 min2 Table 3 1.5 gm2 3 gm2 405 nm 30 mW platesetter ANDROMEDA from Lithotech 90C for 2 min3 Table 4 1.5 gm2 3 gm2 Trendsetter 3244 from Creo 830 nm 50 to 75 mJcm2 90C for 2 min4 Table 5 1.5 gm2 3 gm2 Trendsetter 3244 from Creo 830 nm 50 to 75 mJcm2 90C for 2 minTable 2 Photosensitive composition 1 for a photopolymer layer sensitized to 405nm1.2 g of a 30 propylen glycol mono methyl ether solution of a terpolymer prepared by polymerization of 470 parts by wt.styrene 336 parts by wt.methyl methacrylate and 193 parts by wt.methacrylic acid0.1 g Kayamer PM2 ester of 1 mol phosphoric acid and 1.5 mol hydroxyethylmethacralyte0.20 g mercapto3triazol3.92 g of a 80 methyl ethyl ketone solution of an urethane acrylate prepared by reacting Desmodur N 100 available from BAYER Germany comprising hydroxy ethyl acrylate and pentaerythritol triacrylate having a doublebond content of 0.5 double bonds100 g when all isocyanate groups are completely reacted with the hydroxy group containing acrylates0.45 g ditrimethylolpropane tetraacrylate1.25 g of a dispersion in propylen glycol mono methyl ether containing 7.25 wt of copper phthalocyanine and 7.25 wt of a polyvinylacetal binder containing 39.9 mol vinyl alcohol 1.2 mol vinylacetate 15.4 mol acetal groups from acetaldehyde 36.1 mol acetal groups from butyraldehyde and 7.4 acetal groups from 4formylbenzoic acid0.7 g 2phenyl42chlorophenyl54NNdiethylaminophenyloxazole130.19 g 22bis2chlorophenyl4545tetraphenyl2H12biimidazolyl20 ml propylene glycol monomethyl ether16 ml methanol25 ml methyl ethyl ketonTable 3 Photosensitive composition 2 for a photopolymer layer sensitized to 405nm0.22 g Copolymer of 80 mole allyl methacrylate and 20 mole methacrylic acid with an acid number of 95 mg KOH1 g0.1 g Kayamer PM2 1 mole phosphoric acid esterified with 1.5 moles hydroxyethyl methacrylate available from Coa Corp.Ltd.Japan0.31 g mercapto124triazole2.3 g of a dispersion in propylene glycol monomethyl ether comprising 21.1 wt.copper phthalocyanine and 2.1 wt.of a polyvinylacetal binder comprising 39.9 mole vinyl alcohol groups 1.2 mole vinyl acetate groups 15.4 mole acetal groups derived from acetaldehyde 36.1 mole acetal groups derived from butyric aldehyde and 7.4 mole acetal groups derived from 4formylbenzoic acid15.25 g of a 29.8monomer solution made by the reaction of 16.82 g hexamethylene diisocyanate 13.01 g of hydroxyethylmethacrylate 6.46 g of 22hydroxyethylpiperidine in 85 g methyl ethyl ketone using 0.1 g of dibutyltin dilaurate catalyst0.7 g 2phenyl42chlorophenyl54NNdiethylaminophenyloxazole130.17 g 22bis2chlorophenyl4545tetraphenyl2H12biimidazolyl22.8 ml propylene glycol monomethyl ether16.3 ml methanol26 ml methyl ethyl ketone0.22 g Copolymer of 80 mole allyl methacrylate and 20 mole methacrylic acid with an acid number of 95 mg KOH1 gTable 4 Photosensitive composition 3 for a photopolymer layer sensitized to 810...830 nm3.0 g Ionacryl 683 acrylic acid copolymer available from SC Johnson ampSon Inc having an acid number of 180 mg KOHg4.4 g AC 50 methacrylic acid copolymer available from PCAS having an acid number of 48 mg KOHg 70 wt.solution in methyl glycol8.4 g of a 80 methyl ethyl ketone solution of a urethane acrylate prepared by reacting 1methyl24bisisocyanate benzene Desmodur N100 available from Bayer with hydroxy ethyl acetate and pentaerythritol triacrylate having a doublebond content of 0.50 double bonds100 g when all isocyanate groups are completely reacted1.4 g dipentaerythritol pentaacrylate0.75 g 24methoxyphenyl46bistrichlormethylstriazine0.3 g Renol Blue B2G HW copper phthalocyanine pigment preparation with polyvinyl butyral available from Clariant0.4 g anilino diacetic acid0.25 g 222thiophenyl3213dihydro133trimethyl2Hindol2ylideneethylidene1cyclohexen1ylethenyl133trimethyl3Hindoliumchloride100 ml solvent comprising 30 parts by volume methyl glycol 45 parts by volume methanol 25 parts by volume methyl ethyl ketoneTable 5 Photosensitive composition 4 for a photopolymer layer sensitized to 810...830 nm6.3 g JONCRYL 683 acrylic acid copolymer of the company SC Johnson USA acid number175 mg KOHg9.0 g AC 50 methacrylic acid copolymer of the company PCAS France acid number48 mg KOHg 70 wt.solution in ethylene glycol monomethyl ether1.4 g dipentaerythritol pentaacrylate16.8 g urethane acrylate 80 solution in methyl ethyl ketone prepared by reacting Desmodur N100 of the company Bayer with hydroxyethyl acrylate and pentaerythritol triacrylate amount of double bonds 0.5 double bonds per 100 g when all isocyanate groups have reacted1.8 g 24ethenylbenzyl5mercapto134thiadiazol0.45 g 222thiophenyl3213dihydro133trimethyl2Hindole2ylideneethylidene1cyclohexene1ylethenyl133trimethyl3Hindoliumchloride2.5 g 24methoxyphenyl46bistrichloromethyl135triazine and0.4 g BASONYL VIOLET 610 Basic Violet 3 C.I.42555 available from Bayer Germany |
22,373 | A method for handling and emptying waste collection containers by means of a coupling head which integrates a head structure 41 and is attached to the distal end of a crane arm integrated in a waste collection vehicle said head structure 41 bearinga first holding member 10 having first movable elements 11 operated by means of first operating means 50 movable between a handle gripping position and a handle release position for being coupled to a mushroomshaped handle 1 fixed on an outer surface of a container 3 holding up said container 3 through said handle 1a second holding member 20 having second movable elements 21 operated by means of second operating means 51 movable between an operator release position and a position of interaction with the operator allowing said movable elements 21 to come into geometric interference with a gate operator 2 preventing its free movement being the first holding member 10 is attached to the handle 1 and the second holding members 20 are arranged in the position of interaction the gate operator 2 being arranged in the container in a position adjacent andor concentric to said handle 1 and being mechanically linked to the lower gates of the container for controlling their opening and closinga displacing mechanism 30 operated by means of third operating means 52 envisaged for axially moving said second holding member 20 with respect to said first holding member 10 between gate closing and gate opening positions by means of the resulting relative axial movement between the handle 1 and the gate operator 2 of the mentioned container 3 linked to the first and second holding members 10 and 20causing the closing andor opening of said lower gates of the container 3 mechanically linked to the gate operator 2 characterized in thatthe first second and third operating means 50 51 and 52 are controlled by means of a programmable control unit provided with at least a first and a second handling configuration which are adapted respectively for handling a container containing a gate operator of a first type 2a and for handling a container containing a gate operator of a second type 2b the first and second configurations differing at least in the predetermined handle gripping and release positions andor in the operator release and interaction positions andor in the gate opening and closing positions and in that the programmable control unit implementing the following stepsdetermining if the container to be handled integrates a gate operator of a first type 2a or a gate operator of the second type 2b based on the information obtained by means of sensors or by means of information entered by an operator through an interfaceapplying a first handling configuration if the container to be handled 3 integrates a gate operator of the first type 2a or a second handling configuration if the container to be handled 3 integrates a gate operator of the second type 2b by means of a programmable control unit wherein the first configuration and the second configuration modify one or more of the following positions the handle gripping and release positions andor the gate operator interaction and release positions andor the gate opening and closing positions. | The container coupled to the edge of the ring 4 by means of the small teeth 18 of the levers 17 can be lifted by means of the device 1 and placed above the vehicle for emptying its contents. |
16,381 | The ultrasonic welding device according to claim 3 wherein said angled side surfaces for each said plateau surface is at an angle of 45 degrees to said plateau surface. | Each positioning and clamping element 23 is suitable to cooperate temporarily with the handle 14 of the brush 13 to clamp it during its movement from the feed station 17 to the discharge station 21. |
22,441 | The backlight unit according to any one of the preceding claims wherein a portion of the support side covers an end portion of the side surface of the bottom cover. | The first side portion 310 in the first mold 300 includes an upper surface 3101 the sloping surface 3102 and the side wall 3103.The upper surface 3101 of the first mold 300 supports the optical plate 230 and the optical sheet layer 240.The sloping surface 3102 of the first mold 300 is inclined downwardly from the upper surface 3101.The lower end of the sloping surface 3102 of the first mold 300 presses on reflection sheet 220 thereby helping to prevent movement of the reflection sheet 220.The sloping surface 3102 of the first mold 300 may serve to reflect light emitted from the light source 210.To this end the first mold 300 may be made of a resin having a good reflective property.Alternatively a reflective material may be applied to the sloping surface 3102 of the first mold 300.To provide sufficient reflection efficiency the sloping surface 3102 of the first mold 300 may be inclined at an angle 1 of 30 degrees to 60 degrees with respect to the bottom surface of the bottom chassis 250. |
17,619 | The subsea unit 1 as claimed in claim 11 or 12 wherein the plurality of electronic devices 9 form part of a power converter or frequency converter. | Enclosure 11 is a pressure compensated enclosure i.e.an enclosure that equalizes its inner pressure with the pressure of the medium surrounding the enclosure e.g.with the surrounding water pressure.This can be achieved by completely filling the free volume inside the enclosure with a dielectric liquid 13 and providing one or more pressure compensators not shown which transmit the outside pressure to the inside of the enclosure.For pressure transmission the compensator can comprise a flexible element such as a bellow a membrane a bladder or the like.Outside and inside pressure are thus approximately equal.Arrangements for slightly increasing the inside pressure can be provided.Such arrangements may comprise a spring or a weight which apply a force to the flexible member for creating an overpressure inside the enclosure.This prevents the entering of water.As the pressure differences are relatively small the enclosure 11 can be provided with relatively thin walls compared to a pressure resistant enclosure. |
18,600 | The lighting device of any of the previous claims including electrically conductive lines 16 realized by MID technology onto the front surface of said holder 10. | For example as shown in FIG.4 in the light emitting device of the present embodiment a pair of positive and negative electrodes 110a 110c for external connection disposed on the bottom surface of the support member are extended from each end of the support member 108 to directly under the mounting portions 104b of the light emitting elements 101 a 101 b.According to such disposition arrangement of the electrodes for external connection and the mounting portions of the light emitting elements heat dissipation from the mounting portions of the light emitting elements to the wiring substrate through the electrodes for external connection can be performed without being hindered by the recess or the hollow portion provided in the recess.Thereforedeterioration in heat dissipation efficiency of the light emitting device can be prevented and output of the light emitting device can be improved. |
14,003 | The method of claim 7 wherein the detecting a privacy condition in the wireless device comprises using audio analysis to detect that the wireless device is in a nonprivate environment. | A speakerphone function also causes a problem in that one party cannot know whether or not an opposing partys terminal is in a speakerphone call mode during their call.That is the privacy of the one party may be invaded without his knowledge by the other party. |
15,195 | Wind turbine foundation 200 of claim 14 wherein the stopping elementfurther comprises a plurality of bars radially extending between the central seat and an inner surface of the pile. | The selection of the type of fibre for the inner and outer shells 16 and 18 and preferably for the corrugated sheet 22 may be any combination of fibrereinforced polymer composites using any of glass carbon aramid fibres or combinations with other fibres.The shells 16 18 can be manufactured from moulds using wetlay or preimpregnated FRP materials filament or wrap winding vacuum infusion etc.The stratification and angle orientation with regard to the longitudinal axis of the shells of the FRP layers that make up the shells 16 18 will depend on the desired mechanical properties these shall preferably provide both axial and circumferential stiffness so as to meet the serviceability conditions such as natural frequency and limit load capacity that the tower or pier must withstand. |
20,398 | A ceilingembedded air conditioner 1 comprising a ceilingembedded casing body 2 that has an air suction path 23 at the center of a lower surface 20 and has an air blowoff path 24 around the air suction path 23 a turbo fan 5 that is disposed inside the casing body 2 a heat exchanger 6 that is disposed inside the casing body 2 on an outer peripheral side of the turbo fan 5 and an electrical equipment box 9 that is disposed along a part of the heat exchanger 6 at the upstream side of a ventilation direction wherein the casing body 2 has a square shape with first to fourth side plates 22a to 22d the heat exchanger 6 has first to fourth heat exchange portions 6a to 6d bent along the first to fourth side plates 22a to 22d respectively an end portion 63 of the first heat exchange portion 6a and an end portion 64 of the fourth heat exchange portion 6d are disposed at a corner A for tube connection out of the four corners of the casing body 2 and the electrical equipment box 9 is disposed to extend from the corner A for tube connection toward the first heat exchange portion 6a and the fourth heat exchange portion 6d. | An electric part box 11 is disposed in the vicinity of the drain port 8 along a part of the inside of the drain pan 7.The electric part box 11 is configured to accommodate electric parts which control electricallydriven components accommodated in the indoor unit body 1 electric parts which perform transmissionreception for remote control and the like. |
19,882 | The device according to claim 7 further comprising a memory 873 configured to store hashes of payloads of extracted event information tables. | The method according to the invention limits the time of processing all the EIT tables after changing the transponder.It is possible thanks to computing of the CRC checksum for the EIT table of a different type depending on the needs respectively for the ACTUAL or OTHER type. |
17,014 | Seamless quenched and tempered steel pipe according to any one of the preceding claims wherein the chemical composition consists of by weight0.0500.085 wt C 0.951.30 wt Mn 0.100.35 wt Si 0.200.50 wt Cr 0.150.40 wt Ni 0.150.40 wt Mo 0.0000.010 wt V 0.0200.040 wt Al 0.00080.0030 wt Ca 0.0200.040 wt Nb 0.0000.015 wt Ti 0.00300.0070 wt N 0.000.20 wt Cu 0.00000.0020 wt S 0.0000.015 wt P 0.00000.0005 wt B 0.0000.015 wt Zr 0.0000.015 wt Ta the remaining being iron. | Suitable manufacturing conditions of the manufacturing method of the present invention will be described as follows. |
12,931 | Control system according to any previous claim characterized in that the hub and the server have means 236 246 for mutual communication via the Internet. | A sender device which is sending communications to another device using a naming convention according to the invention specifies the following information to identify the target device1.a name determining a corresponding network address of a communications apparatus enterprise server with which the device name is registered 2.a device name class and 3.a device identifier which is unique for the class and which corresponds to the device identifier format of the class. |
18,754 | The method 1000 of any of the claims 1 to 4 wherein operating the at least two groups of wind turbine comprises at least one of using the group power setpoints 1i to determine power setpoints for the wind turbines of the at least two groups of wind turbines and issuing the power setpoints to the wind turbines of the at least two groups of wind turbines. | Each of the participating groups gets their own measured input signals 221 231 241 and performs their local closed loop control in the control elements 222 232 242.The distribution function distributing element 211 in the main control unit can handle a limitation for individual groups.An example could be that the transformer due to temperature or another operating condition can only handle 50MWthen the power requested from that group of turbines may be limited to 50MW. |
19,444 | An apparatus of wireless communication performed by a user equipment UE comprising means for suspending communication in a first radio access technology RAT to access a second RAT and means for determining based on information obtained from before suspending the communication whether to determine at least one of Doppler estimation channel estimation automatic gain control frequency tracking loopDC estimation SNR estimation or time tracking loop based on the information obtained before the suspension of the first RAT or to determine the at least one of Doppler estimation channel estimation automatic gain control frequency tracking loop DC estimation SNR estimation or time tracking loop based on information obtained after resuming the communication in the first RAT. | In the mobile communication method the report transmitted by the mobile station device includes a given number of channel quality indications measured at radio frequency bands in use for the communication that are divided by a given range.Values of a given pattern are set to the given number of channel quality indications when the report is used as a gap generation request. |
17,635 | The hybrid construction machine according to claim 2 wherein the control section performs the overchargeprevention control by setting the maximum assist power so that DAB is satisfied when C1 gt Cs where A represents pumprequirement power obtained from a pressure and a flow rate of the hydraulic pump and B represents engine total power as a sum of power for driving a body of the engine and corotation power required to drive engine accessory parts excluding the hydraulic pump. | When such a problem related to the capacitor 24 occurs the automatic switching control switches the swing mode from the hydraulicelectric combined swing mode to the hydraulic solo swing mode.After the problem related to the capacitor 24 is eliminated the automatic switching control returns the swing mode from the hydraulic solo swing mode to the hydraulicelectric combined swing mode.Thus the aforementioned first effect can be achieved while eliminating the problem related to the capacitor 24. |
14,441 | The method of claim 8 wherein setting the indicator to the first value comprises setting a triggered value in a variable TRIGGEREDSCRIINPCHSTATE to FALSE. | An IE Signaling Release Indication Cause is also used pursuant to an embodiment of the present disclosure.The release cause is aligned for instance with existing message definitions.The upper layer release cause message is structured e.g.asInformation ElementGroup name Need Multi IE type and reference Semantics descriptionSignaling Release Indication Cause MPEnumerat ed UE Requeste d PS Data session end T3310 expiry T3330 expiryT3340 expiryIn this example the T3310 T330 and T3340 expiries correspond to expiration of correspondinglynumbered timers identified previously.A cause value is settable in one implementation as a UE Requested PS Data session end rather than a UE Requested idle transition to remove the UE indication of a preference for an idle transition and provide for the UTRAN to decide upon the state transition although the expected result corresponds to that identified by the cause value.The extension to the signaling connection release indication is preferably but not necessarily a noncritical extension. |
22,007 | The image processing device 3 according to any one of claims 1 to 3 wherein the display control unit 32 causes the display unit 4 to display a monochromaticimage as the preparation image 112. | Thus in the illustrated embodiment the openedclosed states of the right and left doors trunk and hood on which the cameras are mounted are used as the states of vehicle movable parts.That is to say the state signal S1 giving information right door opened or hood closed for example is input to the display mode changer 23.Data about a correspondence between respective vehicle movable parts and the camera numbers is stored beforehand on the changer 23.The data may be as shown in the following Table 2 for exampleTable 2Movable part Cameras mountedRight door Nos.1 amp 2Left door Nos.5 amp 6Trunk Nos.3 amp 7Hood Nos.0 amp 4 |
15,991 | The information processing system 100 according to any one of claims 1 to 6 wherein the first information is identification information indicating a character string that is shorter than a character string that constitutes the IP information or name information indicating a name of the second information processing device 1200 the second information is information in which the identification information the name information and theIP information are associated with one another the second information processing device 1200 includes a second selecting unit 1201 that selects any one of the identification information and the name information according to input from the user as a target for comparison with the input character string and the determining unit 1420 compares any one of the identification information and the name information included in second information and selected by the second selecting unit with the input character string for each of at least one piece of the second information stored in the second storage unit 141 and determines a first information processing device 10 identified by IP information included in any one of pieces of second information that include information corresponding to the input character string as the first information processing device 10 to execute the process requested from the user. | FIG.19 is a flowchart showing the contents of the retrieval response process at step S600.In FIG.19 when the initialization process at step S500 terminates the projectors 301 through 30n wait for input of the retrieval command output from the server 20 i.e.enter a wait state by determining whether or not the retrieval command is input step S605.When it is determined that the retrieval command is input the process determines whether or not the authentication using a keyword is needed for the server 20 to establish a connection to the projector 301 step S610.The setting in the projectors 301 through 30n determines whether or not theauthenticationusingakeyword is needed.When it is determined that the authentication using a keyword is needed a keyword display process is executed to project the keyword so that the user of the server 20 can visually check it step S615.A flowchart in FIG.20 shows the contents of the keyword display process. |
21,335 | A speech recognition method which is performed by a device the speech recognition method comprising receiving a speech signal of a user detecting a wakeup keyword from the received speech signal of the user by using a wakeup keyword model transmitting a wakeup keyword detectionnondetection signal and the speech signal of the user to a speech recognition server receiving a result of recognizing the speech signal of the user from the speech recognition server based on the wakeup keyword detectionnondetection signal and controlling the device according to the result of recognizing the speech signal of the user. | Using the speaker dependent recognition in some embodiments the speaker can be verified using the voice command portion of the voice signal which may comprise the entire voice signal.Hence there is no need to input a separate wakeup command.For example when the speaker is verified using unique voice characteristics of the user there is no need to input the separate wakeup command.Accordingly in these embodiments the voice command can also operate as the wakeup command.Thus in steps 202 and 204 the specific voice of the particular user is recognized and wakeup command is automatically detected via this speech recognition. |
17,906 | The light emitting device package according to any one of claim 1 to claim 10 wherein the ceramic layer in the package body contacts to the submount via an inorganic paste layer. | Explaining again the first electrode pattern 331 includes the chip mounting region 3311 and the plurality of edge regions 3312 arranged around the chip mounting region 3311.The ceramic layer 310b is exposed outward between the respective neighboring edge regions 3312 which may improve light reflection efficiency.This is equally applied even to the other first electrode patterns 332 333 and 334.In FIG.13B the edge regions 3312 are illustrated as being located along sides of the chip mounting region 3311 by way of example. |
19,817 | The method according to claim 6 wherein the screen share floating control interface further has a return icon the method further comprises stopping transmitting the second frames after the return icon is selected. | Figure 6A shows an exemplary graphical user interface 130 which is presented to user upon selection e.g.a mouse click of the effect settings button 120 of the GUI 110 see Figure 5.The various video effects that may optionally be selected by the user using the GUI 130 correspond to those provided in the effects library 44 of the video device driver 22.For example in order to include the snow effect in the image 100 see Figure 4B a user would select a snow button 132 which would then be set as the requested effect in the effect processing module 34.Accordingly in one exemplaryembodiment the effect processing module 34 would then utilize a digital filter provided in the video device driver 22 to create or include a snow effect into the video stream 30 which is then communicated to the IM application program 18 as shown by arrow 33 in Figure 2.Exemplary buttons 134 136 138140 142 allow a user to instruct the effects processing module 34 to include the ghosting effect 46 the fire effect 48 the water effect 52 the Times Square effect 54 and other effects 56 respectively.It will be noted that as the effect functionality may be selected using an advanced or preferences menu in a conventional IM application program no software changes are required to conventional or legacy IM application programs in order to allow them to include the functionality provided by the video device driver 22. |
19,958 | The method of claim 14 wherein when the new second touch overlaps the second touch the method further comprises outputting the first and second images to different separated regions on the touch screen 151. | The positionlocation module 115 identifies or otherwise obtains the location of the mobile terminal 100.If desired this module may be implemented with a global positioning system GPS module. |
13,026 | The image forming apparatus according to claim 1 wherein the carriage 3 further includes another black nozzle array 4k1 in which a plurality of nozzles for ejecting black droplets are arranged the another black nozzle array 4k1 being disposed at a same position as the color nozzle array 4c1 4c2 in the subscanning direction. | Figure 12 illustrates the second feeding method of the printing head 28a during printing in the second embodiment.In this feeding method when the forward pass of the main scanning is completed the control circuit 40 performs a subscanning feed of 5k prior to the next reverse pass and when the reverse pass of the main scanning is completed the control circuit 40 performs a subscanning feed of 5k prior to the next forward pass.In all other respects this feeding method is similar to the first feeding method band feedband feed in the second embodiment.In this feeding method one raster line is printed by two nozzles.Specifically in each raster line dots are recorded in every other pixel in one pass and the remaining pixels are recorded in another pass.As a result a dot is formed by the same nozzle at every other pixel on each raster line.This printing method is referred to as overlap printing. |
12,990 | The apparatus according to claim 7 wherein said selection means selects the combination of wireless communication paths based on at least ones of the reception directive angles and thetransmission directive angles of the relay node. | In the proposed MIMO system spatial antenna diversity is applied by using multipleelement antenna arrays.In the present embodiment of the communication system 1 comprising three pairs of antennas on the first station 2 and the second station 3 respectively three strongest communication paths 10 11 12 are chosen as described above wherein the multipath propagation channel transfer function can be defined by the following equationHfH11fH12fH13fH21fH22fH23fH31fH32fH33f |
13,899 | A medical device comprising the fluid feed pump according to any one of claims 1 to 13. | As described above in the pump of the present invention a valve only needs to be disposed at the entrance passage thereby making it possible to reduce pressure loss caused by the passage from the entrance passage to the exit passage and to increase the reliability of the pump.In addition because the volume of flow that has flown out from the exit passage can be made to flow into the pump chamber in a short time the time required to increase the volume of the pump chamber and the time required to decrease it are of the same order so that the actuator that actuates the piston or the diaphragm can operate at a high frequency.Therefore it is possible to realize a small light highoutput pump that makes full use of the features of a piezoelectric element.In addition it is possible for the pump to operate under a high load pressure. |
20,753 | The mobile terminal as claimed in any one of claims 1 to 11 wherein the controller is configured to display information related to a specific application on the touchscreen upon reception of the first drag input while an execution screen of the specific application is displayed on the touchscreen. | When a selection is detected 310 the process continues at 312 where display of the preview is discontinued and a function associated with the selected element is performed.The element may be selected at 310 by for example selection utilizing a convenience key on the touchsensitive display 118 or depressing a key or button of the portable electronic device 100.Alternatively the element may be selected by a change in direction of the gesture an end of the gesture by a further touch or gesture and so forth. |
16,064 | The laundry treating machine according to any one of the preceding claims characterized in that the laundry treating machine 10 comprises at least one electric motor 36 with a variable rotation speed for driving a laundry drum 18 andor at least one air stream fan. | With reference to Figure 1 number 1 indicates as a whole a home laundry drier comprising a base 2 resting on the floor a casing 3 designed to be fixed stably but in easily removable manner to the base 2 by fixing means a cylindrical revolving laundry drum 4 for housing the laundry to be dried and which is fixed in axiallyrotating manner inside casing 3 above the base 2 directly facing a laundry loading and unloading opening non shown formed in the front face of casing 3 and a door 5 hinged to the front face of casing 3 to rotate to and from a rest position closing opening in the front face to seal revolving laundry drum 4. |
19,766 | A plurality of silicon domains according to any of the previous claims whereby the silicon domains are particles. | A negative active material according to an embodiment of the present invention includes a siliconbased alloy wherein the siliconbased alloy includes a silicon alloybased matrix and silicon nanoparticles distributed in the matrix wherein a particle size distribution of the nanoparticles satisfies D1010 nm and D9075 nm. |
15,324 | A mobile device comprising a processor coupled to a memory a magnetometer and a gyroscope the memory comprising computer executable instructions that when executed by the processor cause the processor to perform the method according to any one of claims 1 to 10. | Individual data of Sx Sy and Sz having been repeatedly obtained are respectively set as P1S1x S1y S1z P2S2x S2y S2z P3S3x S3y S3z...and as shown in Fig.3.They are placed in a three dimensionalspace by relating the values of Sx Sy and Sz to the direction components of the respective axes. |
21,053 | The method of claim 1 wherein the audio based haptic effect signal comprises a plurality of frequencies or wherein the audio based haptic effect signal is generated by determining a plant model of the device and transforming the audio based haptic effect signal based on the plant model. | Thus in one embodiment a system can transform a haptic signal into a collection of vibrotactile haptic effect patterns for a standarddefinition haptic output device such as an ERM by replacing each haptic effect pattern contained within the haptic signal with one or more vibrotactile haptic effect patterns that are appropriate for the standarddefinition haptic output device.Thus the system can adapt any haptic content that is created for a highdefinition haptic output device either automatically or manually to a standarddefinition haptic output device so that the full haptic experience can be felt by a user of the standarddefinition haptic output device.Therefore a haptic designer is only required to design a haptic effect once or execute an automatic conversion of an input into a haptic effect once.The haptic effect can then be transformed into a haptic effect suitable for a standarddefinition haptic output device.This eliminates the requirement of creating a separate haptic effect for the standarddefinition haptic output device. |
20,285 | The system of claim 5 wherein the program instructions when executed are further configured to confirm whether the pressure of the clutch has been released after releasing the pressure the clutch wherein the charging the battery with power output from the HSG while the HSG is rotating by driving power output from the engine is performed when the pressure of theclutch has been released. | A power generating motor 21 is mounted on a crank shaft 19 of the engine 11 and the power generating motor 21 has a rotor fixed to the crank shaft 19.A drive gear 25 engaged with a speedreducing driven gear 24 provided on the frontwheel drive shaft 15 is provided on an enginepower transmission shaft 23 which is concentric with a rotor output shaft 22 connected to the rotor and the enginepower transmission path is formed from the crank shaft 19 to the frontwheel drive shaft 15.A coupling 26 for shifting engine power to a connection state in which the engine power is transmitted to the drive wheels and to a disconnection state in which the transmission is cut off is provided between the rotor output shaft 22 and the enginepower transmission shaft 23.A twoway clutch corresponding to a mechanical clutch is used as the coupling 26 and the rotor output shaft 22 and the enginepower transmission shaft 23 are changed to the connection state and the disconnection state by an electromagnet. |
21,922 | The semifluorinated alkane for use according to claim 2 wherein the patient has lipid tear film deficiency and the condition and symptoms of keratoconjunctivitis sicca. | Examples of potentially useful oily excipients which may be used in combination with one or more SFAs include triglyceride oils i.e.soybean oil olive oil sesame oil cotton seed oil castor oil sweet almond oil mineral oil i.e.petrolatum and liquid paraffin medium chain triglycerides MCT oily fatty acids isopropyl myristate oily fatty alcohols esters of sorbitol and fatty acids oily sucrose esters or any other oily substance which is physiologically tolerated by the eye. |
16,226 | The rechargeable battery 200 of claim 3 wherein the plate portion 721 of the safety device 72 is in close contact with the second insulation member 82 and the protruded portion 722 of the safety device 72 is in close contact with the first insulation member 81. | However the present invention is not limited thereto and the electrode assembly 10 may have a structure in which the positive electrode and the negative electrode which are formed by a plurality of sheets that are alternately laminated with the separator located between each sheet. |
14,631 | The method of Claim 11 wherein at least one pair of adjacent electrically conductive sections is formed to have a discontinuity therebetween. | Configurations of the type shown in FIG.16 may be used to adjust the electrical properties of gaps 182 andor to adjust effective gap length i.e.to electrically adjust gap width.As shown in FIG.16 for example there may be a gap length width G3 between the outermost most distant edges of gaps 182.Adjustable components 168 may be for example switches.In this type of configuration switch 168A may be opened to switch the leftmost gap 182 into use or may be closed to bypass the leftmost gap.Switch 168B may be opened to switch the rightmost gap 182 into use or may be closed to bypass the rightmost gap.When both switches 168A and 168B are open antenna 40 has two gaps of widths G1 and G2 connected in series within peripheral conductive member 180 so the gaps may be considered to have an effective width of G3.When switch 168A is closed andswitch 168B is open only the gap of width G2 is present.When switch 168B is closed and switch 168A is open only the gap of width G1 is present.When both switches 168 are closed no gap is present.Adjustment of the states of switches 168A and 168B e.g.by applying control signals from storage and processing circuitry 28 to switches 168 can therefore adjust the width of the gap in conductive peripheral member 180.When adjustable electrical components other than switches are used e.g.variable capacitors inductors etc.a combination of impedance adjustments and effective gap width adjustments may be produced. |
20,041 | The system of claim 8 wherein the second volumetric model is based upon a radius of the second structure a z coordinate associated with the level of the second structure above surface and a constant. | The terrain database 106 supplies data representative of the location of terrain that may be a threat to the aircraft.The processor 104 in response to the obstacle data preferably supplies appropriate display commands to the display device 116. |
14,245 | An image displaying apparatus characterized by comprising an illumination optical system an image displaying element configured to be illuminated by the illumination optical system a projection optical system configured to project light from the image displaying element onto a screen and a dustproof member provided between the screen and the projection optical system wherein the projection optical system includes a projection lens composed of plural lenses and a mirror configured to reflect reflection light emitted through the projection lens toward the screen and wherein the dustproof member is configured to mitigate an irregularity in an illuminance distribution of reflection light to be projected onto the screen. | Let us consider using a transmissive screen.The screen is arranged at the front of a cabinet.The cabinet includes the light source the modulation means and the projection optical system.The projection optical system enlarges and projects images onto the transmissive screen from the rear.In this manner it is possible to construct a rear projectiontelevision showing an external view similar to that of a flat television using a lowprofile liquid crystal panel or PDP. |
14,661 | A downconversion circuit 30 for a receiver circuit 10 comprising a first passive switching mixer 70 arranged to downconvert a received radio frequency RF signal with a first local oscillator LO signal LO1 having a first duty cycle for generating a first downconverted signal at an output port 75 of the first passive switching mixer 70 a second passive switching mixer 80 arranged to downconvert the received RF signal with a second LO signal LO2 having the same LO frequency as the first LO signal LO1 and a second duty cycle different from the first duty cycle for generating a second downconverted signal at an output port 85 of the second passive switching mixer 80 a passive output combiner network 90 operatively connected to the output ports 75 85 of the first passive switching mixer 70 and the second passive switching mixer 80 and arranged to combine the first and the second downconverted signals such that harmonically downconverted signal content present in the first downconverted signal and harmonically downconverted signal content present in the second downconverted signal cancel in a combined output signal of the downconversion circuit 30. | An actual implementation would rather use a switching mixer which means that the LO signal is a square wave instead of a pure sine.The Fourier series of a square wave with 50 duty cycle is sq1xLOt2n135sinnLOtn2sinLOt1Isin3LOt3sin5LOt5II |
15,101 | A cooling support element 100 for a stator segment for a stator of an electrical machine in particular a generator the cooling support element 100 comprising a first plate 101 having an upper surface and a lower surface wherein the upper surface of the first plate comprises anchoring means 401 for anchoring a stator lamination stack 700 being attachable to the cooling support element 100 a second plate 102 having an upper surface and a lower surface wherein the lower surface of the second plate comprises an inlet opening 103 and an outlet opening 104 wherein the first plate is attached to the second plate in such a manner that the lower surface of the first plate 101 faces the upper surface of the second plate 102 wherein separator elements 105 106 are disposed between the lower surface of the first plate 101 and the upper surface of the second surface 102 such that a cooling channel is provided between the first plate 101 and the second plate 102 and wherein a cooling fluid is guidable from the inlet opening 103 through the cooling channel to the outlet opening 104 for dissipating heat from the stator lamination stack. | Tubular aluminium profiles are further provided in relation to the periphery of the static parts stators of the mentioned generators of the functional assembly of the wind generator which profiles are located at the outer part of the body of the wind generator in the assembly arrangement therein such that said profiles act as heat sinks very effectively determining the cooling of the stators of the generators of the functional assembly. |
15,556 | The paint film protection sheet according to Claim 1 wherein the total amount of the tackifier resin TH and the tackifier resin TL is 1.0 part by mass or less relative to 100 parts by mass of the base polymer. | Such a tackifying resin can be preferably used in the form of an aqueous emulsion wherein the resin is dispersed in water a tackifying resin emulsion.For example by mixing aqueous emulsions of the component L and the aforementioned tackifying resin a PSA composition containing these components in a desired ratio can be easily prepared.It is preferable to use an emulsion that at least contains no substantial amount of an aromatichydrocarbon solvent more preferably one that contains no substantial amount of an aromatic hydrocarbon solvent or other organic solvent as the tackifying resin emulsion.A PSA sheet with an even lower amount of TVOC can be provided thereby. |
17,532 | The method of claim 7 further comprising providing each blade to comprise a backward sweep from a root of the blade to the selected radius and a forward sweep from the selected radius to a tip of the blade. | With reference to Figs.1 and 2 a sweptblade partialpitch twobladed wind turbine is indicated generally at 10.The wind turbine 10 comprises a wind turbine tower 12 a nacelle 14 provided at the top of said tower 12 and a rotor hub 16 provided at said nacelle 14.First and second partial pitch rotor blades 1820 are provided on opposite sides of said rotor hub 16.In Fig.1 the tower 12 is shown provided on a wind turbine base 22 which may comprise any suitable wind turbine foundation.It will be understood that while the illustrated embodiment describes the use of the invention for an onshore wind turbine it will be understood that the invention may equally apply to wind turbines for use in an offshore environment. |
17,627 | A wireless communication method in which a terminal communicates with a network via at least two cells of a plurality of cells and transmits a request for uplink resources wherein the terminal selects at least one of at least one cell from among said plurality of said cells for transmission of said request a resource for transmission of said request from among a plurality of resources provided by a cell and a characteristic of a signal used to transmit said request wherein the selection is in dependence on at least one of the reason for said request the characteristics of an uplink channel for transmission of said request and the preference of the network. | FIG.5 is a signaling flowchart of a fifth embodiment of a method for selecting serving nodes for access according to the present invention.In this embodiment the UE selects an uplink serving node as shown in FIG.5 the method includesStep 501 The UE obtains RSRPRSRQ of at least two nodes.Step 502 The UE selects a downlink serving node from the at least two nodes according to the RSRPRSR of each node. |
16,341 | The gas sensor according to any one of Claims 1 to 4 wherein a distance L between the center of the second inner gas hole and a bottom surface of the inner protective cover is less than or equal to 2.2 mm. | The outer protection cover 140 is a metal for example stainless steel member having a cylindrical largediameter section 142 a cylindrical stem section 144 connecting to the largediameter section 142 and having a smaller diameter than the diameter of the largediameter section 142 and a bottomed cylindrical edge section 146 having a smaller diameter than the diameter of the stem section 144.The outer protection cover 140 further has a step element 145 connecting the stem section 144 with the edge section 146.The largediameter section 142 thestem section 144 and the edge section 146 each have a central axis identical to that of the inner protection cover 130.The largediameter section 142 has an inner circumferential face that is in contact with the main clamp 102 and with the largediameter section 132 such that the outer protection cover 140 is fastened to the main clamp 102.The stem section 144 is located to cover over an outer circumferential face of the first stem section 134 and that of the second stem section 136.Six first outer gas apertures 144a formed to communicate with the outside of the outer protection cover 140 and with the first gas chamber 122 are arranged at equal intervals around the stem section 144.The first outer gas apertures 144a are circular holes located in a first corner 144b serving as a boundary portion between a side face of the stem section 144 and a bottom face of the step element 145.The first outer gas apertures 144a are formed such that the outer opening plane of each first outer gas aperture 144a forms an angle of 45 degrees with the bottom face of the step element 145 and the outer opening plane forms an angle of 90 degrees with an inner circumferential face of the first outer gas aperture 144a.Although the first outer gas apertures 144a are formed such that the outer opening plane forms an angle of 90 degrees with the inner circumferential face the embodiment is not especially limited to the arrangement.For example when an angle of 90 degrees or more is formed advantages of the present invention are achieved.Fig.4 is an enlarged partial sectional view of a portion including the first outer gas aperture 144a inFig.2.As shown in Fig.4 the outer opening plane broken line a of the first outer gas aperture 144a forms an angle of 45 degrees with the bottom face broken line b of the step element 145.The inner circumferential face 144c of the first outer gas aperture 144a forms an angle of 90 degrees with the outer opening plane broken line a thereof.The edge section 146 is located to cover over the edge section 138 and an inner circumferential face of the edge section 146 is in contact with an outer circumferential face of the second stem section 136.Six second outer gas apertures 146a formed to communicate with the outside of the outer protection cover 140 and with the second gas chamber 126 are arranged at equal intervals in a second corner 146b serving as a boundary portion between a side face and a bottom face of the edge section 146.The second outer gas apertures 146a are circular holes formed in a manner similar to the first outer gas apertures 144a such that the outer opening plane of each second outer gas aperture 146a forms an angle of 45 degrees the bottom face of the edge section 146 and the outer opening plane forms an angle of 90 degrees with an inner circumferential face of the second outer gas aperture 146a.The positional relationship between each of the second outer gas apertures 146a and corresponding one of the gas passing apertures 138a is defined such that the gas passing aperture 138a is located at a position other than the extension of the second outer gas aperture 146a.Fig.5 is an enlarged partial sectional view of a portion including the second outer gas apertures 146aand the gas passing apertures 138a in Fig.2.As shown in Fig.5 when light having directivity is virtually applied from a direction along the central axis of each second outer gas aperture 146a a direction which forms an angle of 45 degrees with the direction along the central axis of the outer protection cover 140 a region 146c irradiated with the light appears on a bottom face of the edge section 138 of the inner protection cover 130.This region 146c is referred to as the region on the extension of the second outer gas aperture 146a.The gas passing aperture 138a is located in a position other than the region 146c.The six first outer gas apertures 144a have the same area of opening and the six second outer gas apertures 146a have the same area of opening.The opening area of each second outer gas aperture 146a is larger than that of the first outer gas aperture.Since the first outer gas apertures 144a are equal in number six to the second outer gas apertures 146a therefore the total area the area of each aperturethe number of apertures of the second outer gas apertures 146a is larger than that of the first outer gas apertures 144a.The first outer gas apertures 144a each has a circular cross section perpendicular to the central axis of the first outer gas aperture 144a and the second outer gas apertures 146a each has a circular cross section perpendicular to the central axis of the second outer gas aperture 146a.The first outer gas apertures 144a and the second outer gas apertures 146a may have a diameter that is not specifically restricted for example the first outer gasapertures 144a have a diameter in a range of 0.8 to 12 mm and the second outer gas apertures 146a have a diameter in a range of 0.8 to 1.2 mm in the present embodiment. |
16,686 | A method for use in a robotic work tool system 200 comprising a charging station 210 a boundary wire 250 a signal generator 240 for generating and transmitting a signal through said boundary wire 250 for demarcating a work area 205 and a robotic work tool 100 said robotic work tool 100 comprising a cuttingblade 160 and a motor 165 for driving the cutting blade 160 said method comprising determining a cutting load being exerted on the cutting blade 160 indicating a height of grass in the work area 205 and adapting a work schedule according to said cutting load prior to a next work session wherein said work schedule includes a cutting height andor a cutting time. | In the first alternative method at step 520 the robot estimates the lawn area by performing an autonomous scanning operation to determine a polygonal lawn area by traversing the lawn perimeter as described above.In the second alternative method at step 525 the robot estimates the lawn area by performing an autonomous scanning operation to determine the length of the average leg after multiple traverses of the lawn. |
17,796 | The surgical instrument of claim 15 wherein the surgical end effector comprises a loading unit wherein the loading unit comprises a carrier operably supporting a surgical staple cartridge and being selectively articulatable relative to the longitudinal tool axis by the articulation system an anvil movably supported relative to the carrier drive and a drive member axially movable through the carrier in response to the firing motions. | At least one articulation arm 250 is shown extending from articulation linkage 244.In an embodiment articulation arm 250 is rigidly connected to articulation rod 260 and it is envisioned that more than one articulation arm 250 is connectable to more than one articulation rod 260.As articulation linkage 244 is translated distally andor proximally in response to rotation of articulation gear 240 articulation rods 260 is also translated distally andor proximally in the directions of arrows F and G along longitudinal axis AA in response thereto.Any combinations of limits switches proximity sensors e.g.optical andor ferromagnetic linear variable displacement transducers and shaft encoders disposed within housing 110 for instance may beutilized to control andor record the location of articulation linkage 244 andor articulation angle of end effector 160 andor position of a firing rod 306 as discussed below with reference to FIGS.9 and 11. |
21,303 | A method 500 of evaluating a part characterized by obtaining 510 data representing a distress rank model DRM 202 for the part ascertaining 510 a DRM value for the part obtaining data 512 representing a cumulative damage model CDM 302 for the part ascertaining 512 a CDM value for the part determining 514 whether the DRM value is at or above at least one predetermined DRM threshold 210 determining 514 whether a CDM value is at or above at least one predetermined CDM threshold 310 and if either the DRM value or the CDM value is at or above the at least one respective threshold then generating an action related to the part. | Each vehicle may include a plurality of sensors 304 that transmit respective operational data to an onboard processor 306.Processor 306 may preprocess the data before transmitting the data to a centralized database 308 for storage and further processing.Moreover data acquisition subsystem 302 includes an operator interface 310 to permit manual entry of operational and maintenance data relating to the operation and scheduled and unscheduled maintenance of the vehicle.Operator interface 310 may be an integral part of data acquisition subsystem 302 or may be a standalone device capable of communicating with data acquisition subsystem 302 through a wired or wireless communications link. |
17,588 | The light emitting device according to any one of claims 1 to 4 further comprising a reflecting layer disposed covering a portion of each of the wiring portions and including a plurality of openings the openings defined at least corresponding to the locations of the at least one light emitting element and arranged exposing parts of the wiring portions and the groove portions. | It is preferable that a protective element is mounted in the light emitting device and 50 or greater area of the surface of the protective element is covered with the filler.With the construction as described above optical absorption by the protective element can be prevented. |
21,324 | The amplifier according to claim 7 further comprising an interstage matching circuit 311 provided on the substrate 300 and connected to an input part of the first cell region 302 and an input part of the second cell region 303. | In FIG.12B the second impedance converting circuit 21 acts as a quarterwave transformer.As a result at the center frequency fC the fundamental impedance zP3 seen from the third reference plane P3 toward the load generally consists of the resistance component and its value rP3 is represented by the following equation.rP3zC22zP4 |
14,779 | An electrochemical battery comprising a positive electrode a negative electrode an electrolyte and the separator according to any one of claims 1 to 13. | To confirm the properties of these separator membranes they were heat laminated onto the following cathode and anode to give secondary lithium batteries. |
15,505 | Optical amplification stage 1 for OTDR monitoring the stage comprising a first 2a and a second optical signal path 2b having respectively first and second direction of propagation of a respective first and second optical signal the first and second direction of propagation being mutually opposite a first 3a and a second optical amplifier 3b located along the first and second optical signal path respectively and having an optical amplification band each of the first and second optical signal being a WDM signal occupying a WDM band comprised within the optical amplification band a first optical coupler 4a placed along the first optical signal path downstream the first optical amplifier with respect to the first direction of propagation a second optical coupler 4b placed along the second optical signal path downstream the second optical amplifier with respect to the second direction of propagation and an optical bypass path 5 optically connecting the first and the second optical coupler each coupler having a first 6 and a second signal port 7 belonging to the respective optical signal path the first port facing the respective optical amplifier and a first 8 and second bypass port 9 the first bypass port belonging to the optical bypass path wherein the first bypass port is the crossport with respect to the second signal port the optical amplification stage comprising a first 11a and a second optical reflector 11b optically connected to the second bypass port of respectively the first and second optical coupler the first and second reflector being structured for reflecting respectively in a first 30 and second reflection band 31 comprising respectively a first and a second OTDR wavelength comprised within the amplification band the first and second optical reflectors being structured so that the optical power ratio of the optical radiation reflected by each optical reflector to the radiation incident thereto throughout the whole WDM band is less than 25 dB and so that the optical power ratio of the optical radiation reflected by each optical reflector to the radiation incident thereto at the respective first and second OTDR wavelength is greater than or equal to10 dB wherein a first total loss is defined as the loss undertaken by an optical radiation propagating from the second signal port of the first respectively the second optical coupler to the second signal port of the second respectively the first optical coupler through the bypass path and wherein a second total loss is defined as the loss undertaken by an optical radiation propagating from the first signal port of the first respectively the second optical coupler to the first respectively the second optical reflector and then to the second signal port of the second respectively the first optical coupler through the bypass path andwherein the difference of the second total loss to the first total loss at the first and second OTDR wavelengths is less than 10 dB. | To the output sections of the optical amplifierrepeaters 22 and 26 are connected 22 optical fiber couplers 23 and 27 respectively to which parts of the output lights of the optical amplifierrepeater are branched.To one each of the branch ports of the optical fiber couplers 23 and 27 are connected one or the other of wavelengthselective reflecting devices 24 and 28.The reflective center wavelength of the wavelengthselective reflecting device 24 here is identical with the wavelength of the probe light source 12 and the reflective center wavelength of the wavelengthselective reflecting device 28 is identical with the wavelength of the probe light source 32.Further the other branch port of the optical fiber coupler 23 to which no wavelengthselective reflecting device is connected and the other branch port of the optical fiber coupler 27 to which no wavelengthselective reflecting device is connected are connected to each other. |
19,640 | Nucleated polypropylene composition comprising a at least one propylene homopolymer and b a polymeric nucleating agent wherein said nucleated polypropylene composition is characterized by having a sum of G measured by Dynamic Mechanical Analysis according to ISO 67217Flexural Modulus determined according to ISO178 each expressed in MPa of at least 2040 MPa | The values of storage modulus G loss modulus G complex modulus G and complex viscositywere obtained as a function of frequency. |
18,732 | Agricultural vehicle 1 comprising a body 2 to which a front axle 5 is pivotally connected wherein a hydraulic cylinder 7 is mounted as a suspension system between the body 2 and the axle 5 the agricultural vehicle 1 further comprising a hydraulic system comprising the hydraulic cylinder 7 and a steerable valve 20 21 provided to selectively connect the hydraulic cylinder 7 to one of an open oil reservoir 24 and an accumulator 25 wherein the hydraulic system is operative to control the steerable valve 20 21 to connect the hydraulic cylinder 7 to the accumulator 25 when a rollover situation is detected and to connect the hydraulic cylinder 7 to the open oil reservoir 24 when return from the rollover situation to a stable situation is detected. | The result of this movement is the equivalent of a modification of the resting triangle resting on the ground of the vehicle 1 which changes from the triangle ABC to the triangle ABC the vertex C of which is moved with respect to the vertex C to the side of the vehicle 1 where the risk of overturning exists.Owing to this modification of the resting triangle resting on the ground of the vehicle 1 the perimeter of the resting triangle moves in such a manner that the action straight line of said resultant R continues to pass inside the new resting triangle resting on the ground thus reducing the risk that a condition of unstable equilibrium is reached in which the overturning is triggered.The configuration of the resting triangle on the ground of the vehicle through the effect of the application of force M is illustrated in Figures 24 and 25.In the upper part of figure 24 a diagram is illustrated that shows the resultant R of the forces acting on the front axle 5 of the vehicle and the reactions of the ground V1 and V2 on the front wheels 4 4.In the lower part of Figure 24 it is illustrated how the diagram of the forces acting on the front axle 5 is modified by the effect of the application of the force M.In the diagram R1 indicates the resultant of the forces acting on the vehicle M indicates the force applied by the actuator 7 on the front axle 5 R1M indicates the sum of these two forces V1 and V2 indicate the ground reactions on the front wheels 4 4 respectively.In Figure 25 a continuous line indicates the resting triangle on the ground of the vehicle modified after the application of the force M and with a dotted line the resting triangle on the ground of the vehicle when a rear wheel is lifted and the oscillation of the front axle 5 with respect to the body 2 of the vehicle is locked as will be explained in detail below. |
13,914 | A method 100 according to claim 5 wherein said received first SIP message from the client comprises a dummy address in said at least one header and wherein when the protocol conversion gateway receives said SIP response message from the SIP proxy the method comprises inserting said dummy address in said at least one header before sending said SIP response message to the client over said nonstandard SIP transport protocol. | The SIPx server 324 receives the initiation message 1 and references a registrar database 510.The registrar database 510 may be integrated inside the SIP server as shown or external thereto.The registrar database 510 has a list of users that are registered in network A 304 and within any other networks served by the SIPx server 324.The registrar database 510 also includes at least one contact address for each registered user. |
22,442 | The backlight unit according to any one of the preceding claims wherein the support side includes a scattering pattern for scattering the light from the plurality of light sources. | In more detail the third side portion 330 in the first mold 300 includes an upper surface 3301 a sloping surface 3302 inclined downwardly from the upper surface 3301 and a side wall 3303.Since the light source 210 is received in the third side portion 330 it is not necessary to separately provide a reflection plane in an area where the light source 210 is received.Thus a vertical plane 3307 is disposed in the area where the light source 210 is received.The sloping surface 3302 extends upwardly from the vertical plane 3307.In addition the sloping surface 3302 is vertical to the long axis of the light source 210 which means that an amount of light directly incident from the light source 210 is small.Thus a downward inclination angle 2 of the sloping portion 3302 does not need to be gentle unlike in the first side portion 310.Meanwhile the greater the downward inclination angle 2 of the sloping portion 3302 with respect to the bottom chassis 250 the narrower the distance between the side wall of the bottom chassis 250 and the vertical plane 3307.This is advantageous in acquiring an exposure area ofthe light source 210 Therefore the sloping portion 3302 is preferably inclined with respect to the bottom chassis 250 at a relatively large downward inclination angle 2 within a range in which reflection efficiency is not unduly declined for example in a range of about 60 degrees to about 80 degrees. |
13,779 | A capsule 11 according to claim 5 wherein said overlap is between 1 and 3 mm wide. | Close to the lower cover member or membrane 18 opening means 17 may be arranged.The opening means 17 are preferably designed to pierce the cover member 18 inresponse to a pressure rise within the capsule.Hence if fluid is injected to the capsule 1 e.g.by means of a dedicated externally provided injection member piercing the upper cover member 23 the resulting pressure rise within the capsule deflects the lower membrane 18 towards the opening means 17 which in turn pierce said lower membrane 18.Accordingly liquid comestible resulting from the interaction of the injected liquid with the food ingredients housed within the storing space 16 of the capsule is enabled to be poured from the capsule by means of the outlet opening 15. |
22,070 | The compound cycle engine as defined in any one of the preceding claims wherein each of the at least two rotary units is a Wankel engine. | In addition the volumetric compression ratio of the rotary units 12 does not need to be reduced to achieve this increase in power available for the turbine 22 of the turbocharger 18.As such in a particular embodiment the volumetric efficiency of each rotary unit may be maximized and its thermal loads minimized and the performances of the compound cycle engine 10 at startup are not compromised by the increase of available power. |
22,282 | Fiber reinforced composition comprising a 5.0 to 89.5 wt.of a heterophasic polypropylene copolymer HECO b 5.0 to 89.5 wt.of a propylene polymer PP having a melt flow rate MFR2 230 C measured according to ISO 1133 of 1150 g10min c 5.0 to 65.0 wt.of Glass fibers GF and d 0.5 to 5.0 wt.of a polar modified polypropylene as adhesion promoter AP based on the total weight of the fiber reinforced composition wherein i the heterophasic polypropylene copolymer HECO having a xylene cold soluble XCS content in the range of 10.0 to lower than 25.0 wt.based on the heterophasic polypropylene copolymer HECO ii the xylene cold soluble XCS fraction of the heterophasic polypropylene copolymer HECO having a comonomer content in the range of 15.0 to 35.0 wt.and an intrinsic viscosity IV of lower than 2.0 dlg. | It has been surprisingly found out that the fiber reinforced composition possesses very good flowabilty by keeping the other properties like stiffness and impact on the desired levels.In particular the flexural modulus the Charpy impact and the elongation at break fulfill the requirements set for instance by the automobile industry and the appliance industry see tables 2 to 4. |
18,803 | A component according to any one of the previous claims wherein each sheath of each protector segment is formed of a different material to the material of which the component is formed. | The locking member 42 has a first end region 76 adjacent the first platform 16.The first end region adapts the locking member to engage a first cooling air hole 36a at the trailing edge of the airfoil.The first end region also adapts the locking member to engage in the spanwise direction a first front opening 78 in the shield 44.The locking member has a second end region 82 adjacent the second platform which adapts the locking member to engage a second cooling air hole 36b at the trailing edge of the airfoil.The second end region also adapts the locking member to engage in the spanwise direction a second front opening 84 in the shield.Fig.2 shows the stator vane 10 shown in Fig.1 and the shield assembly 12 in the installed condition.As shown in Fig.2 the long second side 62 of the shield overlaps the first side 52.The upper portion 72 and lower portion 74 of the long second side overlap each other in the spanwise direction.The tabs 5658 on the first side extend at a location past the rear edge of the second side through the openings 6668 in the second side.The tabs are bent over into a faying relationship with the second side to urge the second side toward the pressure surface of the airfoil. |
14,009 | The wireless device of claim 3 wherein the privacy condition module further comprises a privacy condition module for analyzing audio received by the wireless device to determine that the wireless device is in a nonprivate location. | According to one aspect of the present invention there is also provided an apparatus and method for automatically transmitting a predetermined voice message from a portable wireless terminal to a calling partners terminal over a currentlyestablished traffic channel when the portable wireless terminal enters a speakerphone call mode. |
17,438 | A method of using a communication device 100 the communication device 100 being used at a one hub to share information by transmitting and receiving image data and sound data among a plurality of hubs via a communication network the method comprising determining whether a receiving device 150 250 that is connected to the communication device 100 and that supports a predetermined standard is any one of adedicated receiving device 150 that is previously specified and that has an image recordingsound recording function or a receiving device 250 that does not have an image recordingsound recording function and when a determination result is positive at the determining converting at least one selected form a group consisting of image data and sound data from the one hub and image data and sound data transmitted from a different hub other than the one hub into a digital signal in accordance with the predetermined standard so as to transmit the digital signal from the communication device 100 to the receiving device 150 250. | Further a series of processes as described in the present specification can be carried out by hardware software or a combination of both.When performing the process by software the program having recorded therein a processing sequence can be implemented by installing it in the memory of the computer in which the dedicated hardware is built in.Alternatively the program can be installed and executed in the generalpurpose computer which can perform various processes.For example the program can be recorded in a recording medium in advance.The program can be not only installed in the computer from the recording medium programs can be also received through networks such as LAN Local Area Network and the Internet to install the programs in recording media such as a builtin hard disk. |
21,524 | The induction heater as claimed in any of claims 15 wherein the oscillator comprises two inverting amplifiers tied together. | In another embodiment a controller may be provided for allowing only one of the applicators 18 to be in use at a time.The applicators 18 may be interchangeable in the connection of each to the eddy currenthysteretic circuit.The applicators 18 may be simultaneously engaged to the eddy currenthysteretic circuit.At least one of the applicators 18 may include a flexible pad 18 e.g.FIGURE 3 for accommodating substantially all configurations of automotive vehicle body areas.Alternatively or in addition at least one of the applicators 18 e.g.FIGURE 4 may include a magnetic ferrite structure 23 having an air gap 21 for delivering a concentrated level of heat to a mechanical part of an automotive vehicle.Each applicator 18 may also include indicia 32 for indicating an oncondition of the applicator 18.Heater apparatus 10 may also include a sensor which turns an applicator 18 off when no motion is sensed over a predetermined period of time.A housing 90 may be used to contain the eddy currenthysteretic circuit and the plurality of applicators 18 when the heater structures are not in use. |
17,186 | The rotor blade assembly 100 as in any preceding claim wherein said vortex generator accessory 102 comprises a plurality of said protrusion members 108 extending from said base portion 104. | As seen in Fig.4 in an advantageous embodiment the vortex generator device 70 is formed as a vane VG device comprising a base 71 having when mounted to an exterior of the wind turbine blade an inner side 72 for attaching to the exterior of the wind turbine blade and an outer side 73 facing away from the exterior of the wind turbine blade.The base 71 further comprises a first side 77 or trailing edge side and a second side 78 or leading edge side as well as a first end 75 and a second end 76.The base 71 is trapeziumshaped so that the first side 77 is parallel to the second side 78 and so that a length of the second side 78 of the base 71 is smaller than a length of the first side 77 of the base 71.In an advantageous embodiment the first end 75 and the second end 76 are oriented so that they form a mutual tapering angle of approximately 38 degrees.The base may advantageously be formed with a rounded perimeter as further shown in Fig.6. |
16,588 | A positive electrode according to any one of claims 1 and 2 wherein the active carbon is in the form of particles having an average diameter of 1 to 30 m preferably of 3 to 20 m more preferably 5 to 10 m. | Results of analysis of preferred graphites by Xray diffractometry and another technique are shown below.Lattice spacing d002 0.3330.350 nm Crystallite size in aaxis direction La 20 nm or larger Crystallite size in caxis direction Lc 20 nm or larger True density 2.002.25 gcm3 |
Subsets and Splits