Patent application number | Description | Published |
20080249743 | LOAD CALCULATING DEVICE AND LOAD CALCULATING METHOD - There is provided with a load calculating device including: a variable acquiring unit configured to acquire, as monitoring variables, a detected value by a sensor monitoring a state of a circuit board and a performance characteristic obtained by a tool monitoring performance of the circuit board; a first storage configured to store a first statistical model that is one of a regression model, an occurrence frequency distribution and a probability distribution; a second storage configured to store a second statistical model that is one of a regression model, an occurrence frequency distribution and a probability distribution; and an arithmetic processor configured to calculate the intermediate variable from the monitoring variables acquired by the variable acquiring unit according to the first statistical model and calculate the physical quantity from calculated intermediate variable according to the second statistical model. | 10-09-2008 |
20080310130 | ELECTRONIC APPARATUS - An electronic apparatus includes: a circuit board that is disposed inside a case that is formed by coupling first and second case halves, the circuit board being interposed between first and second boss portions; first and second conductive members that are disposed between a gap formed between the first boss portion and the circuit board; a third conductive member that is disposed between the first boss portion and the first conductive member and between the first boss portion and the second conductive member to electrically connect the first conductive member to the second conductive member; and a measurement circuit that is electrically connected to a first wiring and a second wiring, which are respectively connected to the first conductive member and the second conductive member, and measures an electrical characteristic value of at least one of the first conductive member and the second conductive member. | 12-18-2008 |
20090063083 | Method of estimating support state of an electronic apparatus housing and electronic apparatus - In a method of estimating one of mechanical supporting states of a housing for an electronic apparatus, a drive signal is supplied to an oscillation device from which first oscillation is applied to the housing. A sensor detects a second oscillation transferred through the housing in response to the first oscillation to generate an oscillation signal, and a measurement response characteristic is obtained based on the drive signal and the oscillation signal, and is compared with reference response characteristics which are correlated with the mechanical supporting states, respectively, to estimate one of the mechanical supporting states of the housing. | 03-05-2009 |
20090190317 | ELECTRONIC APPARATUS - According to one aspect of the invention, there is provided an electronic apparatus having a circuit board supporting structure, the circuit board supporting structure including: a casing including a first body and a second body, the first body having a first boss portion, the second body having a second boss portion; a jig including a cylindrical portion having, and a flange portion formed on an outer periphery, the cylindrical portion configured to slidably receive the first boss portion and the second boss portion in an inner peripheral wall; and a circuit board disposed in the casing. The first and second boss portions are configured to be fastened by a bolt member; the circuit board has a hole and a joining region provided around the hole, the hole configured to allow the cylindrical portion to penetrate therethrough; and the joining region is configured to be soldered to the flange portion. | 07-30-2009 |
20100082913 | STORAGE DEVICE AND METHOD FOR CONTROLLING STORAGE DEVICE - A storage device includes: a printed circuit board; a semiconductor memory package mounted on the printed circuit board via solder joints, the semiconductor memory package incorporating semiconductor memories; a sensor configured to measure a physical quantity relating to a state of the storage device; a database including a damage estimation model base to be used for estimating damage of the solder joints from the physical quantity measured by the sensor; a damage estimating module configured to calculate a damage estimation value of the solder joints from the physical quantity using the damage estimation model base; and a controller configured to control writing, reading, and erasure of electronic data to or from the semiconductor memories based on the damage estimation values calculated by the damage estimating module. | 04-01-2010 |
20100250149 | MONITORING DEVICE AND MONITORING METHOD - A dummy junction which will break earlier than a target junction is arranged on a board. A history of load applied to the dummy junction until the dummy junction actually breaks is recorded, and an estimated lifetime of the target junction is calibrated when a lifetime of the dummy junction estimated by the history of the load is largely different from an actual lifetime of the dummy junction. The calibration is performed by subtracting a value of an unmeasurable load from the estimated lifetime of the target junction based on load ever applied to the target junction, and the unmeasurable load is calculated based on the difference of the actual lifetime and estimated lifetime of the dummy junction. | 09-30-2010 |
20100251039 | MEMORY DEVICE - A first module calculates a failure occurrence risk index of each data storage area address. A second module calculates a power saving index of each data storage area address. A third module calculates an access speed index per unit data volume necessary to access each data storage area address. A fourth module generates a distribution table that represents the failure occurrence risk index, the power saving index, and the access speed index for each candidate address, with respect to data to be distributed. A fifth module selects a candidate address in the distribution table such that the power saving index and the access speed index meet restricting conditions and the failure occurrence risk index is minimized, and distributes the data to the candidate address. | 09-30-2010 |
20100274833 | MONITORING DEVICE AND A SERVER - According to one embodiment, each monitoring device acquires monitoring variables from an observation target, generates an individual multidimensional distribution of the monitoring variables, and transmits the individual multidimensional distribution to a server. The server generates sampling data using the individual multidimensional distribution received from each monitoring device, generates an overall multidimensional distribution of the monitoring variables using the sampling data, determines a statistical model of each index using the overall multidimensional distribution, generates an overall index multidimensional distribution of indexes using the statistical model and the overall multidimensional distribution, and transmits the overall index multidimensional distribution and statistical models to each monitoring device. The monitoring device generates sampling data using the individual multidimensional distribution, and calculates a positioning of the observation target using the sampling data, the overall index multidimensional distribution and the statistical models. | 10-28-2010 |
20110072902 | METHOD OF ESTIMATING SUPPORT STATE OF AN ELECTRONIC APPARATUS HOUSING AND ELECTRONIC APPARATUS - In a method of estimating one of mechanical supporting states of a housing for an electronic apparatus, a drive signal is supplied to an oscillation device from which first oscillation is applied to the housing. A sensor detects a second oscillation transferred through the housing in response to the first oscillation to generate an oscillation signal, and a measurement response characteristic is obtained based on the drive signal and the oscillation signal, and is compared with reference response characteristics which are correlated with the mechanical supporting states, respectively, to estimate one of the mechanical supporting states of the housing. | 03-31-2011 |
20110271052 | RAID SYSTEM INCLUDING SEMICONDUCTOR STORAGE UNIT AND CONTROL METHOD OF THE SAME - A RAID system to transfer data to and from host equipment includes a semiconductor storage unit, a semiconductor-memory selector, and a memory controller. The semiconductor storage unit includes two or more semiconductor memories, a mounting board, and solder joints. The semiconductor memories are mounted on the mounting board. The solder joints are between the semiconductor memories and the mounting board. The semiconductor-memory selector selects a combination of the semiconductor memories to dispersively record the data in the semiconductor storage unit. The memory controller accesses the combination in response to a request of the host equipment. In addition, the selector selects the combination so that mechanical loads received by the semiconductor memories are averaged. | 11-03-2011 |
20120008291 | Electronic apparatus - An electronic apparatus includes: a circuit board that is disposed inside a case that is formed by coupling first and second case halves, the circuit board being interposed between first and second boss portions; first and second conductive members that are disposed between a gap formed between the first boss portion and the circuit board; a third conductive member that is disposed between the first boss portion and the first conductive member and between the first boss portion and the second conductive member to electrically connect the first conductive member to the second conductive member; and a measurement circuit that is electrically connected to a first wiring and a second wiring, which are respectively connected to the first conductive member and the second conductive member, and measures an electrical characteristic value of at least one of the first conductive member and the second conductive member. | 01-12-2012 |
20120072129 | LIFE PREDICTING METHOD FOR SOLDER JOINT, LIFE PREDICTING APPARATUS FOR SOLDER JOINT AND ELECTRONIC DEVICE - A life predicting method for a solder joint includes a step of referring to a temperature history of a measurement object having a solder joint, a step of examining at least one physical quantity selected from the group consisting of amplitude, a cycle number, a mean temperature, and a periodic length of a temperature variation with a cycle count method from the temperature history, a step of calculating a strain range by utilizing a previously prepared response surface from the physical quantity examined with the cycle count method, and a step of calculating a strain range increasing rate from a strain range with reference to a previously obtained damage index and a strain variation history of the strain range. | 03-22-2012 |
20120179391 | ELECTRONIC DEVICE AND DAMAGE DETECTING METHOD - There is provided with an electronic device including: an electronic board having at least one electronic component mounted via both of a target joint and a dummy joint; a vibration source to apply vibrations to the electronic board; a database configured to contain correlation between an electrical characteristic of the dummy joint and a damage value of the target joint, the damage value indicating a degree of crack growth of the target joint; a controller to drive the vibration source; an electrical characteristic measuring unit configured to measure an electrical characteristic of the dummy joint during the vibration source is driven; and a damage calculating unit configured to calculate a damage value of the target joint based on the electrical characteristic of the dummy joint measured by the electrical characteristic measuring unit and the correlation stored in the database. | 07-12-2012 |
20120198293 | STORAGE DEVICE AND METHOD FOR CONTROLLING STORAGE DEVICE - A storage device includes: a printed circuit board; a semiconductor memory package mounted on the printed circuit board via solder joints, the semiconductor memory package incorporating semiconductor memories; a sensor configured to measure a physical quantity relating to a state of the storage device; a database including a damage estimation model base to be used for estimating damage of the solder joints from the physical quantity measured by the sensor; a damage estimating module configured to calculate a damage estimation value of the solder joints from the physical quantity using the damage estimation model base; and a controller configured to control writing, reading, and erasure of electronic data to or from the semiconductor memories based on the damage estimation values calculated by the damage estimating module. | 08-02-2012 |
20120209537 | ELECTRONIC DEVICE - According to one embodiment, an electronic device includes a circuit board with an electronic component mounted thereon. The device, includes a measuring unit, a first database, a determination unit, and a presentation unit. The measuring unit measures an value of state of the electronic component. The first database stores data indicating correlation. The determination unit determines one of ways of applying a load to a junction, based on the value of state of the electronic component measured by the measuring unit, and referring to the first database. The presentation unit presents the determined way of applying the load to the junction. | 08-16-2012 |
20120248440 | SEMICONDUCTOR MODULE - According to one embodiment, a semiconductor module comprises a substrate, a first wiring, an electrode pad, a junction, an oscillator, and a detector. The first wiring is disposed on the substrate, and has a characteristic impedance Z | 10-04-2012 |
20120283989 | MONITORING DEVICE AND A SERVER - According to one embodiment, each monitoring device acquires monitoring variables from an observation target, generates an individual multidimensional distribution of the monitoring variables, and transmits the individual multidimensional distribution to a server. The server generates sampling data using the individual multidimensional distribution received from each monitoring device, generates an overall multidimensional distribution of the monitoring variables using the sampling data, determines a statistical model of each index using the overall multidimensional distribution, generates an overall index multidimensional distribution of indexes using the statistical model and the overall multidimensional distribution, and transmits the overall index multidimensional distribution and statistical models to each monitoring device. The monitoring device generates sampling data using the individual multidimensional distribution, and calculates a positioning of the observation target using the sampling data, the overall index multidimensional distribution and the statistical models. | 11-08-2012 |
20130013964 | MEMORY DEVICE - A first module calculates a failure occurrence risk index of each data storage area address. A second module calculates a power saving index of each data storage area address. A third module calculates an access speed index per unit data volume necessary to access each data storage area address. A fourth module generates a distribution table that represents the failure occurrence risk index, the power saving index, and the access speed index for each candidate address, with respect to data to be distributed. A fifth module selects a candidate address in the distribution table such that the power saving index and the access speed index meet restricting conditions and the failure occurrence risk index is minimized, and distributes the data to the candidate address. | 01-10-2013 |
20150019150 | SEMICONDUCTOR MODULE - According to one embodiment, a semiconductor module comprises a substrate, a first wiring, an electrode pad, a junction, an oscillator, and a detector. The first wiring is disposed on the substrate, and has a characteristic impedance Z0. The electrode pad is connected to the first wiring. The junction is disposed on the electrode pad, and has an impedance Z1. The oscillator is disposed in contact with the first wiring, and oscillates a pulse wave of a voltage toward the junction via the first wiring. The detector is disposed in contact with the first wiring, and detects an output wave of the pulse wave from the junction. The characteristic impedance Z0 and the impedance Z1 satisfy a following relationship (1), | 01-15-2015 |