会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 2. 发明授权
    • A/D conversion apparatus and DC-DC conversion apparatus
    • A / D转换装置和DC-DC转换装置
    • US08525715B2
    • 2013-09-03
    • US13525956
    • 2012-06-18
    • Taichi OgawaMasanori Furuta
    • Taichi OgawaMasanori Furuta
    • H03M1/06
    • H03M1/1019H02M3/1588H02M2001/0012H03M1/12Y02B70/1466
    • There is provided with an A/D conversion apparatus which the first terminal receives a reference voltage signal, the single-ended to differential converter conducts single-ended to differential conversion on the reference voltage signal to obtain a first differential signal, the A/D converter conducts A/D conversion on the first differential signal based on the reference voltage signal to obtain a first digital signal, the digital circuit detects a DC offset which is a difference between the first digital signal and a digital signal, the second terminal receives an input signal, the single-ended to differential converter conducts single-ended to differential conversion on the input signal to acquire a second differential signal, the A/D converter conducts A/D conversion on the second differential signal based on the reference voltage signal to acquire a second digital signal, and the digital circuit subtracts the DC offset from the second digital signal to obtain a third digital signal.
    • 设置有第一端子接收参考电压信号的A / D转换装置,单端到差分转换器对参考电压信号进行单端到差分转换,以获得第一差分信号,A / D 转换器基于参考电压信号对第一差分信号进行A / D转换以获得第一数字信号,数字电路检测作为第一数字信号和数字信号之间的差的DC偏移,第二终端接收 输入信号,单端到差分转换器对输入信号进行单端到差分转换,以获取第二差分信号,A / D转换器根据参考电压信号对第二差分信号进行A / D转换, 获取第二数字信号,并且数字电路从第二数字信号中减去DC偏移以获得第三数字信号 。
    • 3. 发明申请
    • A/D CONVERSION APPARATUS AND DC-DC CONVERSION APPARATUS
    • A / D转换装置和DC-DC转换装置
    • US20130049713A1
    • 2013-02-28
    • US13525956
    • 2012-06-18
    • Taichi OgawaMasanori Furuta
    • Taichi OgawaMasanori Furuta
    • H03M1/06G05F1/46
    • H03M1/1019H02M3/1588H02M2001/0012H03M1/12Y02B70/1466
    • There is provided with an A/D conversion apparatus which the first terminal receives a reference voltage signal, the single-ended to differential converter conducts single-ended to differential conversion on the reference voltage signal to obtain a first differential signal, the A/D converter conducts A/D conversion on the first differential signal based on the reference voltage signal to obtain a first digital signal, the digital circuit detects a DC offset which is a difference between the first digital signal and a digital signal, the second terminal receives an input signal, the single-ended to differential converter conducts single-ended to differential conversion on the input signal to acquire a second differential signal, the A/D converter conducts A/D conversion on the second differential signal based on the reference voltage signal to acquire a second digital signal, and the digital circuit subtracts the DC offset from the second digital signal to obtain a third digital signal.
    • 设置有第一端子接收参考电压信号的A / D转换装置,单端到差分转换器对参考电压信号进行单端到差分转换,以获得第一差分信号,A / D 转换器基于参考电压信号对第一差分信号进行A / D转换以获得第一数字信号,数字电路检测作为第一数字信号和数字信号之间的差的DC偏移,第二终端接收 输入信号,单端到差分转换器对输入信号进行单端到差分转换,以获取第二差分信号,A / D转换器根据参考电压信号对第二差分信号进行A / D转换, 获取第二数字信号,并且数字电路从第二数字信号中减去DC偏移以获得第三数字信号 。
    • 5. 发明授权
    • A/D conversion device and radio device
    • A / D转换装置和无线电装置
    • US08797205B2
    • 2014-08-05
    • US13413793
    • 2012-03-07
    • Masanori FurutaTetsuro Itakura
    • Masanori FurutaTetsuro Itakura
    • H03M1/12
    • H03M1/164H03M1/466
    • This A/D convertor includes: a first D/A conversion unit configured to sample an analog input signal, and to generate a first difference signal by performing successive comparison of the analog input signal based on a reference voltage; a precharge capacitor unit configured to hold the reference voltage; a first comparing unit configured to compare the first difference signal with a reference value to generate a first digital signal; and an amplifying unit configured to calculate by using the first difference signal and the reference voltage to generate a residual signal.
    • 该A / D转换器包括:第一D / A转换单元,被配置为对模拟输入信号进行采样,并且通过基于参考电压执行模拟输入信号的连续比较来产生第一差分信号; 配置为保持所述参考电压的预充电电容器单元; 第一比较单元,被配置为将所述第一差分信号与参考值进行比较,以产生第一数字信号; 以及放大单元,被配置为通过使用第一差分信号和参考电压来计算以产生残留信号。
    • 6. 发明授权
    • Residual signal generating circuit, successive approximation ad converter, pipelined ad converter, and radio receiver
    • 剩余信号发生电路,逐次逼近广告转换器,流水线广告转换器和无线电接收器
    • US08660506B2
    • 2014-02-25
    • US13607365
    • 2012-09-07
    • Masanori FurutaHirotomo Ishii
    • Masanori FurutaHirotomo Ishii
    • G06F3/033H04K3/00
    • H03M1/168H03M1/162H03M1/361H03M1/804
    • There is provided with a residual signal generating circuit in which the capacitive DA converter generates a first difference signal with respect to an input signal based on a criterion voltage, the criterion voltage being indicative of an input range of the input signal, the reference voltage generating circuit divides the criterion voltage to obtain at least one partial voltage signal, the residual signal generating section generates 2N−1 first residual signal according to a difference between the first difference signal and 2N−1−1 first reference signal, the 2N−1−1 first reference signal being 2N−1−1 partial voltage signal among said at least one partial voltage signal generated by the reference voltage generating circuit, the comparator compares the 2N−1 first residual signal with a fixed voltage to obtain 2N−1 first comparison signal each indicative of a logical value, and the decoder decodes the 2N−1 first comparison signal to obtain first data of N bits.
    • 设置有残留信号发生电路,其中电容DA转换器基于标准电压产生相对于输入信号的第一差分信号,标准电压指示输入信号的输入范围,产生参考电压 电路划分标准电压以获得至少一个部分电压信号,残差信号产生部分根据第一差信号和2N-1-1第一参考信号之间的差产生2N-1个第一残差信号, 1个第一参考信号是由参考电压产生电路产生的所述至少一个部分电压信号中的2N-1-1个部分电压信号,比较器将2N-1个第一残差信号与固定电压进行比较,以获得2N-1个第一比较 信号,每个指示逻辑值,并且解码器解码2N-1个第一比较信号以获得N位的第一数据。
    • 8. 发明申请
    • MAGNETIC STORAGE DEVICE
    • 磁性存储器件
    • US20110149640A1
    • 2011-06-23
    • US13039633
    • 2011-03-03
    • Masanori FurutaDaisuke KuroseTsutomu Sugawara
    • Masanori FurutaDaisuke KuroseTsutomu Sugawara
    • G11C11/00
    • G11C7/14G11C7/02G11C7/067G11C11/1659G11C11/1673
    • A magnetic storage device includes a plurality of MRAM memory cells connected to a data transfer line, a clamp transistor connected between the data transfer line and a reading signal line and configured to fixedly hold the potential of the data transfer line, and a reading circuit which is connected to the reading signal line and which reads the storage information of the memory cell. The reading circuit includes a hold switch connected between the reading signal line and a reading node N and configured to hold the potential of the node N, a capacitor connected between the node N and a ground end, a precharging switch connected between the node N and a power source and configured to charge the capacitor, and an inverter to which the potential of the node N is input to generate a digital signal.
    • 磁存储装置包括连接到数据传输线的多个MRAM存储单元,连接在数据传送线和读取信号线之间并被配置为固定地保持数据传输线的电位的钳位晶体管,以及读取电路, 连接到读取信号线并读出存储单元的存储信息。 读取电路包括连接在读取信号线和读取节点N之间并被​​配置为保持节点N的电位的保持开关,连接在节点N和接地端之间的电容器,连接在节点N和节点N之间的预充电开关 电源,并且被配置为对电容器充电;以及逆变器,输入节点N的电位以产生数字信号。
    • 10. 发明授权
    • Battery over-discharge protection
    • 电池过放电保护
    • US06617069B1
    • 2003-09-09
    • US09787346
    • 2001-03-16
    • George Frederick HopperRichard PenneckMasanori FurutaTakashi SatoShigefumi Torii
    • George Frederick HopperRichard PenneckMasanori FurutaTakashi SatoShigefumi Torii
    • H01M1048
    • H01M2/348H01M2/1241H01M2/34H01M6/10H01M10/4257H01M10/48H01M2200/00H02H7/18H02H9/026H02J7/0031
    • The present invention relates to an over-discharge preventing circuit, especially an over-discharge over-current preventing circuit, and more specifically relates to an over-discharge over-current preventing circuit comprising an over-discharge preventing circuit having a FET and an over-current preventing circuit for protecting the FET. The invention includes a primary or secondary battery containing such a circuit, and a battery pack containing such a circuit. The batteries comprising an over-discharge over-current preventing circuit according to the present invention have (1) an electrolyte, (2) a pair of electrode members forming a negative electrode member and a positive electrode member which electrically contact the electrolyte, (3) a pair of external connection terminals respectively electrically connected to corresponding electrode members and (4) a PTC element and FET with a source terminal and drain terminal serially connected between one of the electrode members and the corresponding external connection terminal, the gate terminal being connected to the other electrode member. The FET prevents over-discharge by stopping the supply of current to the external connection terminal when the voltage between the electrode members becomes lower than a predetermined value. The PTC element prevents over-current by stopping the supply of current to the external terminal when the current between the electrode members exceeds a predetermined value, thereby also protecting the FET from being destroyed by such an over-current.
    • 过放电防止电路技术领域本发明涉及过放电防止电路,特别是过放电过电流防止电路,更具体地涉及一种过放电过电流防止电路,其包括具有FET和过放电防止电路的过放电防止电路 用于保护FET的电流防护电路。 本发明包括含有这种电路的主电池或二次电池,以及包含这种电路的电池组。 包括根据本发明的过放电过电流防止电路的电池具有(1)电解质,(2)形成负极部件的一对电极部件和与电解质电接触的正极部件(3) )一对外部连接端子,分别与相应的电极部件电连接,以及(4)PTC元件和FET,其源极端子和漏极端子串联连接在一个电极部件和对应的外部连接端子之间,栅极端子被连接 到另一个电极部件。 当电极构件之间的电压变得低于预定值时,FET通过停止向外部连接端子的电流供应来防止过度放电。 当元件之间的电流超过预定值时,PTC元件通过停止向外部端子的电流供应来防止过电流,从而也可以防止FET被这种过电流破坏。