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    • 1. 发明申请
    • Method and circuitry for thermal accelerometer signal conditioning
    • 用于热加速度计信号调理的方法和电路
    • US20050274180A1
    • 2005-12-15
    • US11146993
    • 2005-06-07
    • Yang ZhaoAlbert LeungMichael RebeschiniGregory PucciAlexander DribinskyYongyao Cai
    • Yang ZhaoAlbert LeungMichael RebeschiniGregory PucciAlexander DribinskyYongyao Cai
    • G01P15/00
    • G01P15/008
    • A thermal accelerometer device that provides a compensation for sensitivity variations over temperature. The thermal accelerometer includes signal conditioning circuitry operative to receive analog signals representing a differential temperature is indicative of a sensed acceleration. The signal conditioning circuitry includes serially connected A-to-D and D-to-A converters, which implement a temperature dependent function and process the received signals to provide a compensation for sensitivity variations over a range of ambient temperature. To provide a ratiometric compensation for variations in power supply voltage, a buffered voltage proportional to the supply voltage is provided as a reference voltage to the D-to-A converter. The thermal accelerometer includes a self-test circuit for verifying the integrity of a heater, temperature sensors, and circuitry included within the device.
    • 一种热敏加速度计装置,可提供对温度敏感度变化的补偿。 热加速度计包括信号调节电路,其操作以接收表示差分温度的模拟信号,其指示感测到的加速度。 信号调理电路包括串行连接的A到D和D到A转换器,其实现温度依赖功能并处理接收到的信号以提供在环境温度范围内的灵敏度变化的补偿。 为了提供电源电压变化的比例补偿,将与电源电压成比例的缓冲电压作为参考电压提供给D转换器。 热加速度计包括用于验证加热器,温度传感器和包括在装置内的电路的完整性的自检电路。
    • 2. 发明授权
    • Power-on-reset circuit having zero static power consumption
    • 上电复位电路具有零静态功耗
    • US07671643B2
    • 2010-03-02
    • US12006467
    • 2008-01-03
    • Alexander DribinskyGregory Pucci
    • Alexander DribinskyGregory Pucci
    • H03L7/00
    • H03K17/22H03K2217/0036
    • A power-on-reset (POR) circuit having a zero or substantially zero current state while the supply voltage is in a predetermined, valid range is disclosed. The POR circuit includes a state machine, an oscillator, and output circuitry that are electrically coupled to one another and to a supply voltage. Output from the output circuitry is also provided to the integrated circuit to which the POR circuit is coupled. The state machine includes a plurality of sequential circuits such as latches, flip-flops, and the like that are electrically coupled in a cascade, to provide a ripple counter. The output circuitry is structured and arranged to reset or initialize all of the logic elements on the chip by generating a POR output logic HI (1) signal by Boolean operation of the logic circuitry signal of the state machine for all Boolean states except one. The oscillator is disabled when the POR output logic signal is LO (0), which causes the POR circuit to enter a zero or substantially zero current state.
    • 公开了一种在电源电压处于预定的有效范围内具有零或基本零电流状态的上电复位(POR)电路。 POR电路包括电耦合到电源电压的状态机,振荡器和输出电路。 输出电路的输出也提供给POR电路耦合到的集成电路。 状态机包括串联电耦合的多个时序电路,例如锁存器,触发器等,以提供纹波计数器。 输出电路被构造和布置成通过对除了一个之外的所有布尔状态的状态机的逻辑电路信号的布尔运算产生POR输出逻辑HI(1)信号来复位或初始化芯片上的所有逻辑元件。 当POR输出逻辑信号为LO(0)时,振荡器被禁止,这导致POR电路进入零或基本零电流状态。
    • 3. 发明申请
    • Power-on-reset circuit having zero static power consumption
    • 上电复位电路具有零静态功耗
    • US20090174444A1
    • 2009-07-09
    • US12006467
    • 2008-01-03
    • Alexander DribinskyGregory Pucci
    • Alexander DribinskyGregory Pucci
    • H03L7/00
    • H03K17/22H03K2217/0036
    • A power-on-reset (POR) circuit having a zero or substantially zero current state while the supply voltage is in a predetermined, valid range is disclosed. The POR circuit includes a state machine, an oscillator, and output circuitry that are electrically coupled to one another and to a supply voltage. Output from the output circuitry is also provided to the integrated circuit to which the POR circuit is coupled. The state machine includes a plurality of sequential circuits such as latches, flip-flops, and the like that are electrically coupled in a cascade, to provide a ripple counter. The output circuitry is structured and arranged to reset or initialize all of the logic elements on the chip by generating a POR output logic HI (1) signal by Boolean operation of the logic circuitry signal of the state machine for all Boolean states except one. The oscillator is disabled when the POR output logic signal is LO (0), which causes the POR circuit to enter a zero or substantially zero current state.
    • 公开了一种在电源电压处于预定的有效范围内具有零或基本零电流状态的上电复位(POR)电路。 POR电路包括电耦合到电源电压的状态机,振荡器和输出电路。 输出电路的输出也提供给POR电路耦合到的集成电路。 状态机包括串联电耦合的多个时序电路,例如锁存器,触发器等,以提供纹波计数器。 输出电路被构造和布置成通过对除了一个之外的所有布尔状态的状态机的逻辑电路信号的布尔运算产生POR输出逻辑HI(1)信号来复位或初始化芯片上的所有逻辑元件。 当POR输出逻辑信号为LO(0)时,振荡器被禁止,这导致POR电路进入零或基本零电流状态。
    • 4. 发明授权
    • Crystal oscillator having input/output pins selectively used for analog
or digital signals
    • 晶体振荡器具有有选择地用于模拟或数字信号的输入/输出引脚
    • US5724009A
    • 1998-03-03
    • US739339
    • 1996-10-29
    • Timothy CollinsGregory Pucci
    • Timothy CollinsGregory Pucci
    • H03L1/02H03B5/32
    • H03L1/026
    • A digital temperature compensated crystal oscillator (10) with pin multiplex control which includes: four analog I/O pins, a signal multiplex method which allows switchable digital communication via at least two of the analog I/O pins (20,28), and an external mode selector (12) which operates through the power leads. Changes in the power voltage level selects the TCXO (10) to operate in a normal or communication operating mode. In the normal operating mode the TCXO operates in a normal analog manner. In the communication mode, the analog functions of the I/O pins (20,28) are switched out and digital functions are allowed on the same I/O pins (20,28). The use of the same I/O pins (20,28) for switchable analog and digital signals saves size and cost, and prevents the inadvertent access to the digital functions of the TCXO (10) by customers in the field.
    • 一种具有引脚复用控制的数字温度补偿晶体振荡器(10),包括:四个模拟I / O引脚,一种允许通过至少两个模拟I / O引脚(20,28)进行可切换数字通信的信号复用方法,以及 通过电源线工作的外部模式选择器(12)。 电源电压电平的变化选择TCXO(10)在正常或通信工作模式下工作。 在正常工作模式下,TCXO以正常的模拟方式工作。 在通信模式下,I / O引脚(20,28)的模拟功能被切换,同一个I / O引脚(20,28)允许使用数字功能。 使用相同的I / O引脚(20,28)可切换的模拟和数字信号可以节省大小和成本,并防止客户在现场无意中访问TCXO(10)的数字功能。