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1.发明授权Method and apparatus of a resonant oscillator separately driving two independent functions 有权共振振荡器的方法和装置分别驱动两个独立的功能公开(公告)号:US09197222B2
公开(公告)日:2015-11-24
申请号:US14108329
申请日:2013-12-16
Applicant: Tensorcom, Inc.
Inventor: Syed Enam Rehman
CPC classification number: H03L7/00 , H03B1/00 , H03B5/1212 , H03B5/1228 , H03B5/1243 , H03B5/1265 , H03B2200/0062 , H03L1/023 , H03L7/18
Abstract: Capacitive adjustment in an RCL resonant circuit is typically performed by adjusting a DC voltage being applied to one side of the capacitor. One side of the capacitor is usually connected to either the output node or the gate of a regenerative circuit in an RCL resonant circuit. The capacitance loading the resonant circuit becomes a function of the DC voltage and the AC sinusoidal signal generated by the resonant circuit. By capacitively coupling both nodes of the capacitor, a DC voltage can control the value of the capacitor over the full swing of the output waveform. In addition, instead of the RCL resonant circuit driving a single differential function loading the outputs, each output drives an independent single ended function; thereby providing two simultaneous operations being determined in place of the one differential function.
Abstract translation: RCL谐振电路中的电容调整通常通过调整施加到电容器一侧的直流电压来进行。 电容器的一侧通常连接到RCL谐振电路中的再生电路的输出节点或栅极。 谐振电路的电容成为由谐振电路产生的直流电压和交流正弦信号的函数。 通过电容耦合电容器的两个节点,DC电压可以在输出波形的全摆幅时控制电容器的值。 此外,代替RCL谐振电路驱动负载输出的单个差分功能,每个输出驱动独立的单端功能; 从而提供两个同时的操作来代替一个差分功能。
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2.发明申请Method and Apparatus of a Resonant Oscillator Separately Driving Two Independent Functions 有权谐振器的方法和装置分别驱动两个独立的功能公开(公告)号:US20140104007A1
公开(公告)日:2014-04-17
申请号:US14108329
申请日:2013-12-16
Applicant: Tensorcom, Inc.
Inventor: Syed Enam Rehman
IPC: H03L7/00
CPC classification number: H03L7/00 , H03B1/00 , H03B5/1212 , H03B5/1228 , H03B5/1243 , H03B5/1265 , H03B2200/0062 , H03L1/023 , H03L7/18
Abstract: Capacitive adjustment in an RCL resonant circuit is typically performed by adjusting a DC voltage being applied to one side of the capacitor. One side of the capacitor is usually connected to either the output node or the gate of a regenerative circuit in an RCL resonant circuit. The capacitance loading the resonant circuit becomes a function of the DC voltage and the AC sinusoidal signal generated by the resonant circuit. By capacitively coupling both nodes of the capacitor, a DC voltage can control the value of the capacitor over the full swing of the output waveform. In addition, instead of the RCL resonant circuit driving a single differential function loading the outputs, each output drives an independent single ended function: thereby providing two simultaneous operations being determined in place of the one differential function.
Abstract translation: RCL谐振电路中的电容调整通常通过调整施加到电容器一侧的直流电压来进行。 电容器的一侧通常连接到RCL谐振电路中的再生电路的输出节点或栅极。 谐振电路的电容成为由谐振电路产生的直流电压和交流正弦信号的函数。 通过电容耦合电容器的两个节点,DC电压可以在输出波形的全摆幅时控制电容器的值。 此外,代替RCL谐振电路驱动负载输出的单个差分功能,每个输出驱动独立的单端功能:从而提供两个同时操作来代替一个差分功能。
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