Patent application number | Description | Published |
20120313825 | ANTENNA ASSEMBLY AND PORTABLE WIRELESS TERMINAL - An antenna assembly ( | 12-13-2012 |
20120319906 | ANTENNA AND PORTABLE WIRELESS TERMINAL - An antenna includes a first antenna element, a second antenna element, and a third antenna element. The second antenna element is placed between the first antenna element and the third antenna element. A first connecting end, a second connecting end, and a third connecting end are each placed in a position that is closer to a third apical end than to a first apical end. Thus, even in the case of an antenna including three antenna element that are used for an identical system, the antenna can be provided with a suppressed difference in radiation efficiency among frequency bands to which the antenna elements respectively correspond. | 12-20-2012 |
20140185265 | STRUCTURE AND STRUCTURE MANUFACTURING METHOD - A structure includes a housing made of a dielectric substance, an electrically conductive member embedded in the housing so as to penetrate the housing, and an electrically conductive pattern which is provided on at least one of surfaces, in which the electrically conductive member lies by penetrating the housing, so that the electrically conductive pattern is electrically connected with the electrically conductive member. The electrically conductive pattern is made up of an electrically conductive film which has no self-shape retention property. | 07-03-2014 |
20140194078 | WIRELESS COMMUNICATION DEVICE - A wireless communication device includes an antenna element for carrying out wireless communications, a power feeding section for supplying power to the antenna element, a conductor other than the antenna element, and a dividing part for dividing the conductor, the dividing part being provided so as to divide the conductor into parts so that each of the parts has a length equal to or less than a quarter of wavelength at an operating frequency at which the antenna element carries out wireless communications. | 07-10-2014 |
Patent application number | Description | Published |
20110134810 | MODULE FOR USE IN MOBILE COMMUNICATION TERMINAL AND MOBILE COMMUNICATION TERMINAL APPLYING THE SAME THEREIN - For providing a module for use of a mobile communication terminal, being small in sizes and high in reliability, and enabling with plural numbers of bands, and also a mobile communication terminal with using the same therein, canceling is conducted on transmission signal and/or noises of reception band on reception side with using a feed forward technology, for maintaining a degree of suppression of the transmission signal and/or the noises of reception band on the reception side. In this case, for achieving the cancellation of wide band signals from the transmission signal to the reception band, a delay adjusting function is used, in addition to gain and phase adjusting functions. Also, for conducting stable canceling of jamming signals, controls are conducted on the gain, the phase and the delay of a loop with using a reception SN and/or a CQI signal, etc. | 06-09-2011 |
20120094617 | MODULE FOR MOBILE COMMUNICATION TERMINAL, AND MOBILE COMMUNICATION TERMINAL - A tunable filter in a tunable DPX module has frequency characteristics, and thus needs to be controlled with high accuracy so as to simultaneously cancel a transmission signal and noise in a reception band on a transmission side. For this reason, a canceller includes a filter having the same frequency characteristic as that of a tunable filter, and a structure having functions of compensating for an amplitude, a phase, and a delay. And, two lines of the cancellers are used to individually cancel a leak component of a transmission signal and a leak component of thermal noise in a reception band. In order to save the power consumption of the amplifier, a coupler is loosely coupled, and a combiner is tightly coupled. Further, in order to suppress the influence on a reception system due to the tough coupling, the combiner uses the amplifier for in-phase inputs. | 04-19-2012 |
20120112853 | TUNABLE FILTER, TUNABLE DUPLEXER AND MOBILE COMMUNICATION TERMINAL USING THE SAME - A tunable filter and a tunable duplexer are provided, both of which comprise an input terminal, an output terminal, four fixed capacitors, three variable capacitors and three fixed coils; wherein the variable capacitors are grounded at one end and, at the other end, connected to the fixed coils to form three sets of series-connected LC circuit; wherein the connecting points of the three sets of series-connected LC circuit, the input terminal and the output terminal are connected with the fixed capacitors, respectively. | 05-10-2012 |
20120163245 | MODULE FOR MOBILE COMMUNICATION TERMINAL AND MOBILE COMMUNICATION TERMINAL - A tunable filter has an out-of-band signal suppression amount of 30 dB that is smaller than 50 dB, the suppression amount of a typical duplexer. Thus, a canceller having a suppression amount of about 20 dB is necessary (particularly, a method is provided to obtain a suppression amount over a wide band without being adversely affected by the group delay characteristics and frequency characteristics of an amplifier included in a canceller). Delay devices corresponding to the group delay of the amplifier are disposed on the signal path of the tunable filter. The canceller includes a matching circuit that adjusts an amplitude, a phase, and a delay, a wide-band amplifier that has small amplitude fluctuations and small phase fluctuations over the frequency bands of a transmission signal and a reception signal, a variable-impedance transmission coupler, and a variable-impedance reception coupler. | 06-28-2012 |
20130242809 | MOBILE COMMUNICATION TERMINAL MODULE AND MOBILE COMMUNICATION TERMINAL - In a tunable duplexer combining a tunable filter with a canceler, calibration for optimizing passband characteristics and stop band characteristics is accelerated, and the deterioration of performance due to variations is highly accurately compensated. The tunable filter is calibrated to acquire isolation characteristics, and then coarse calibration and fine calibration are performed on the canceler. In coarse calibration, the use band of the tunable filter is set to a suppression band, and the isolation characteristics of the canceler are acquired. An amplitude, a phase, and a bias voltage are adjusted based on a result of comparison with the acquired isolation characteristics of the tunable filter for determining an approximate convergence. Fine calibration is further performed, and the optimum point is determined in a narrow range near the convergence. | 09-19-2013 |