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    • 1. 发明授权
    • Signal transmitting circuit
    • 信号发射电路
    • US09396871B2
    • 2016-07-19
    • US14431359
    • 2012-12-04
    • Kenichi MorokumaJun TomisawaKazuyasu Nishikawa
    • Kenichi MorokumaJun TomisawaKazuyasu Nishikawa
    • H04B5/00H01F38/14H03K5/1534H04L25/02H03K3/037H03K5/26
    • H01F38/14H01F2038/143H03K3/0377H03K5/1534H03K5/26H04B5/0031H04B5/0093H04L25/0268
    • A transmitter circuit feeds to a transmitter coil, every time transmission data changes in logical value, a current signal in pulse form having a positive or negative polarity that is alternately inverted in response to each change in logical value; and a receiver circuit inputs induction voltage signals each being double pulses having both positive and negative polarities, which have been induced in a receiver coil by the current signal fed to the transmitter coil, to demodulate the transmission data. The receiver circuit includes: an amplifier that amplifies the induction voltage signals of double pulses induced in the receiver coil; and a signal generating unit that, when detecting first single pulses in the induction voltage signals of double pulses amplified by the amplifier, sets up an insensitive period for second single pulses therein, to generate an output signal corresponding to the transmission data, based solely on the first single pulses.
    • 发送器电路每当发送数据在逻辑值变化时,馈送到发送器线圈,脉冲形式的电流信号具有响应于逻辑值的每个变化而交替反转的正或负极性; 并且接收器电路输入感应电压信号,每个感应电压信号是由馈送到发射机线圈的电流信号在接收器线圈中感应出的具有正极性和负极性的双脉冲,以解调传输数据。 接收器电路包括:放大器,用于放大在接收器线圈中感应的双脉冲的感应电压信号; 以及信号生成单元,当检测到由放大器放大的双脉冲的感应电压信号中的第一单个脉冲时,为其中的第二单个脉冲建立不敏感期,以仅基于对应于传输数据的输出信号生成输出信号 第一个单脉冲。
    • 2. 发明申请
    • SIGNAL TRANSMITTING CIRCUIT
    • 信号发送电路
    • US20150248966A1
    • 2015-09-03
    • US14431359
    • 2012-12-04
    • Kenichi MorokumaJun TomisawaKazuyasu Nishikawa
    • Kenichi MorokumaJun TomisawaKazuyasu Nishikawa
    • H01F38/14H03K5/26H03K3/037H04B5/00
    • H01F38/14H01F2038/143H03K3/0377H03K5/1534H03K5/26H04B5/0031H04B5/0093H04L25/0268
    • A transmitter circuit feeds to a transmitter coil, every time transmission data changes in logical value, a current signal in pulse form having a positive or negative polarity that is alternately inverted in response to each change in logical value; and a receiver circuit inputs induction voltage signals each being double pulses having both positive and negative polarities, which have been induced in a receiver coil by the current signal fed to the transmitter coil, to demodulate the transmission data. The receiver circuit includes: an amplifier that amplifies the induction voltage signals of double pulses induced in the receiver coil; and a signal generating unit that, when detecting first single pulses in the induction voltage signals of double pulses amplified by the amplifier, sets up an insensitive period for second single pulses therein, to generate an output signal corresponding to the transmission data, based solely on the first single pulses.
    • 发送器电路每当发送数据在逻辑值变化时,馈送到发送器线圈,脉冲形式的电流信号具有响应于逻辑值的每个变化而交替反转的正或负极性; 并且接收器电路输入感应电压信号,每个感应电压信号是由馈送到发射机线圈的电流信号在接收器线圈中感应出的具有正极性和负极性的双脉冲,以解调传输数据。 接收器电路包括:放大器,用于放大在接收器线圈中感应的双脉冲的感应电压信号; 以及信号生成单元,当检测到由放大器放大的双脉冲的感应电压信号中的第一单个脉冲时,为其中的第二单个脉冲建立不敏感期,以仅基于对应于传输数据的输出信号生成输出信号 第一个单脉冲。
    • 3. 发明申请
    • SIGNAL TRANSMISSION CIRCUIT
    • 信号传输电路
    • US20140226366A1
    • 2014-08-14
    • US14342946
    • 2012-04-18
    • Kenichi MorokumaJun Tomisawa
    • Kenichi MorokumaJun Tomisawa
    • G05F3/08
    • G05F3/08H04L25/0266
    • A signal transmission circuit includes an isolation circuit, first and second grounded gate circuits, first and second MOS transistors, and a comparator. The isolation circuit such as a thin-film transformer outputs complementary first and second output signals, based on an input signal. The first and second grounded gate circuits receive and amplify the first and second output signals, respectively. The first and second MOS transistors are connected between a power supply node and the first and second grounded gate circuits, respectively, for adjusting the first and second output signals. The comparator compares output from the first grounded gate circuit with output from the second grounded gate circuit.
    • 信号传输电路包括隔离电路,第一和第二接地栅极电路,第一和第二MOS晶体管以及比较器。 诸如薄膜变压器的隔离电路根据输入信号输出互补的第一和第二输出信号。 第一和第二接地门电路分别接收和放大第一和第二输出信号。 第一和第二MOS晶体管分别连接在电源节点和第一和第二接地栅极电路之间,用于调节第一和第二输出信号。 比较器比较来自第一接地栅极电路的输出与第二接地栅极电路的输出。
    • 4. 发明授权
    • Signal transmission circuit
    • 信号传输电路
    • US09195253B2
    • 2015-11-24
    • US14342946
    • 2012-04-18
    • Kenichi MorokumaJun Tomisawa
    • Kenichi MorokumaJun Tomisawa
    • H03K3/00G05F3/08H04L25/02
    • G05F3/08H04L25/0266
    • A signal transmission circuit includes an isolation circuit, first and second grounded gate circuits, first and second MOS transistors, and a comparator. The isolation circuit such as a thin-film transformer outputs complementary first and second output signals, based on an input signal. The first and second grounded gate circuits receive and amplify the first and second output signals, respectively. The first and second MOS transistors are connected between a power supply node and the first and second grounded gate circuits, respectively, for adjusting the first and second output signals. The comparator compares output from the first grounded gate circuit with output from the second grounded gate circuit.
    • 信号传输电路包括隔离电路,第一和第二接地栅极电路,第一和第二MOS晶体管以及比较器。 诸如薄膜变压器的隔离电路根据输入信号输出互补的第一和第二输出信号。 第一和第二接地门电路分别接收和放大第一和第二输出信号。 第一和第二MOS晶体管分别连接在电源节点和第一和第二接地栅极电路之间,用于调节第一和第二输出信号。 比较器比较来自第一接地栅极电路的输出与第二接地栅极电路的输出。