Tsuyoshi Yano
Tsuyoshi Yano, Aichi JP
Patent application number | Description | Published |
---|---|---|
20080220298 | Hybrid Fuel Cell System and Voltage Conversion Control Method Thereof - To provide a hybrid fuel cell system for improving converter efficiency. In a hybrid fuel cell system ( | 09-11-2008 |
20110012604 | SECONDARY BATTERY SYSTEM - Provided is a secondary battery system which can accurately detect a state of a secondary battery system (such as a secondary battery state and a secondary battery system failure). The secondary battery system ( | 01-20-2011 |
Tsuyoshi Yano, Aichi-Ken JP
Patent application number | Description | Published |
---|---|---|
20100119949 | ELECTRODE FOR SECONDARY BATTERY AND PRODUCTION PROCESS FOR THE SAME AND SECONDARY BATTERY - To provide an electrode for secondary battery, electrode which can materialize secondary batteries that are adapted into producing high output and additionally whose durability is high. | 05-13-2010 |
20120105006 | CONTROL METHOD FOR LITHIUM ION SECONDARY BATTERY, AND LITHIUM ION SECONDARY BATTERY SYSTEM - A control method for a lithium ion secondary battery includes performing a charging step of charging the lithium ion secondary battery with a predetermined quantity of electricity when the battery voltage of the lithium ion secondary battery has decreased to a lower limit battery voltage that is set at a value that falls within a range higher than (B−C) V and lower than or equal to (B−C+0.2) V where a maximum value of a positive electrode potential of a flat portion in a discharge positive electrode potential curve is B (V) and a negative electrode dissolution potential is C (V). It is possible to suppress a dissolution of a negative electrode current collector of the lithium ion secondary battery to prevent the service life of the lithium ion secondary battery from shortening because of an internal short circuit. | 05-03-2012 |
Tsuyoshi Yano, Toyota-Shi JP
Patent application number | Description | Published |
---|---|---|
20080303529 | Vehicle, Power Supply Device of Vehicle, and Current Detection Device - A vehicle comprises a battery, i.e. a power storage unit having a capacity different from a reference capacity, a current sensor for detecting a current inputted to the power storage unit or outputted therefrom and delivering the detection value by converting it depending on the ratio of the capacity of the power storage unit to the reference capacity, and a controller performing current integration by receiving the output from the current detecting section and judging charged state of the power storage unit. The current sensor preferably comprises a sensor for measuring a current flowing through wiring connected with the power storage unit, and a converting section for converting the sensor output depending on the ratio of the capacity of the power storage unit to the reference capacity. When the capacity of the power storage unit is equal to n times of the reference capacity, the converting section delivers the sensor output while multiplying by 1/n. | 12-11-2008 |
20090160247 | Power Supply Device for Vehicle and Method of Controlling the Same - A power supply device for a vehicle includes a battery (B | 06-25-2009 |
20140096374 | BATTERY ASSEMBLING APPARATUS AND BATTERY ASSEMBLY MANUFACTURING METHOD - A battery assembling apparatus of one aspect of the invention comprises: first and second rotary tables arranged to face each other at points on respective outer circumferences and rotate in forward directions relative to each other; a battery holding part provided on the outer circumference of the first rotary table to hold a battery; a frame holding part provided on the outer circumference of the second rotary table to hold a frame; a battery supplying part for supplying batteries to the battery holding part at a position different from a facing position between the first and second rotary tables; a frame supplying part for supplying frames to the frame holding part at a position different from the facing position; and a discharging part for taking out an assembly of a battery and a frame assembled together from the facing position, the first and second rotary tables being rotated with a rotation speed ratio and in a phase relationship such that the battery holding part and the frame holding part face each other every time at the facing position. Accordingly, the batteries and the frames for accommodating the cells can be accurately assembled with high productivity. | 04-10-2014 |