公开(公告)号：US20120229175A1

公开(公告)日：2012-09-13

申请号：US13393832

申请日：2010-08-27

Applicant: Riccardo Serventi ,  Luigi Di Piro ,  Monica Schipani ,  Paolo D'Abramo

Inventor： Riccardo Serventi ,  Luigi Di Piro ,  Monica Schipani ,  Paolo D'Abramo

IPC: H03K3/00 ,  G05F1/10

CPC classification number: H03K19/00315 ,  H03K19/018557

Abstract: A coupling circuit has a first and a second transistor (P1, P2) of a p-channel field-effect transistor type. A drain terminal of the first transistor (P1) is connected to a signal input (1), source terminals of the first and the second transistor (P1, P2) are commonly connected to a signal output (2), bulk terminals of the first and the second transistor (P1, P2) are commonly connected to a drain terminal of the second transistor (P2), and a gate terminal of the first transistor (P1) is connected to a gate terminal of the second transistor (P2). The coupling circuit further comprises a gate control circuit (10) with a charge pump circuit (110) which is configured to generate a negative potential. The gate control circuit (10) is configured to control a gate voltage at the gate terminals of the first and the second transistor (P1, P2) based on a negative potential.

Abstract translation: 耦合电路具有p沟道场效应晶体管类型的第一和第二晶体管（P1，P2）。 第一晶体管（P1）的漏极端子连接到信号输入端（1），第一和第二晶体管（P1，P2）的源极端子共同连接到信号输出端（2），第一晶体管 并且第二晶体管（P1，P2）共同连接到第二晶体管（P2）的漏极端子，并且第一晶体管（P1）的栅极端子连接到第二晶体管（P2）的栅极端子。 耦合电路还包括具有电荷泵电路（110）的门控制电路（10），其被配置为产生负电位。 栅极控制电路（10）被配置为基于负电位来控制第一和第二晶体管（P1，P2）的栅极端子处的栅极电压。

公开(公告)号：US07474162B2

公开(公告)日：2009-01-06

申请号：US10573454

申请日：2004-08-24

Applicant: Paolo D'Abramo ,  Riccardo Serventi

Inventor： Paolo D'Abramo ,  Riccardo Serventi

IPC: H03K3/26

CPC classification number: H03K3/0231 ,  H03K3/011

Abstract: An RC oscillator circuit is disclosed. The RC oscillator circuit includes a current generator configured to generate a charge current. The RC oscillator circuit also includes an integrator having an input and an output, the input being connected to the current generator. The RC oscillator circuit also includes a comparator having a first input, a second input, and an output, the first input being connected to the output of the integrator and the second input being configured to supply a reference threshold. The RC oscillator circuit also includes a clock pulse generator connected to the output of the comparator and a reference generator configured to generate the reference threshold based on a supply voltage of the RC oscillator circuit.

Abstract translation: 公开了一种RC振荡器电路。 RC振荡电路包括配置成产生充电电流的电流发生器。 RC振荡器电路还包括具有输入和输出的积分器，该输入端连接到电流发生器。 RC振荡器电路还包括具有第一输入，第二输入和输出的比较器，所述第一输入连接到积分器的输出，第二输入被配置为提供参考阈值。 RC振荡器电路还包括连接到比较器的输出的时钟脉冲发生器和被配置为基于RC振荡器电路的电源电压产生参考阈值的参考发生器。

公开(公告)号：US09537298B2

公开(公告)日：2017-01-03

申请号：US14129094

申请日：2012-05-21

Applicant: Paolo D'Abramo ,  Luigi Di Piro

Inventor： Paolo D'Abramo ,  Luigi Di Piro

IPC: G01R31/00 ,  H02H1/00 ,  G01R31/02 ,  G01R31/28 ,  H02H3/28 ,  H02M1/00 ,  H01L21/00

CPC classification number: H02H1/003 ,  G01R31/026 ,  G01R31/2818 ,  G09G2230/00 ,  H01L21/00 ,  H02H3/28 ,  H02M1/00

Abstract: An electronic module (100) has a first and a second circuit (200, 300) with respective first and second output connections (230, 330), respective first and second reference potential connections (220, 320), and respective first and second sensing connections (240, 340), each circuit (200, 300) comprising a respective sensing block (250, 350), which at its input side is connected to the respective sensing connection (240, 340) and to the respective reference potential connection (220, 320). The first sensing connection (240) is either connected to the first output connection (230) or to the second output connection (330). The second sensing connection (340) is connected to the second output connection (330). The sensing blocks (250, 350) are configured to detect a failure of the electronic module (100) with respect to its respective reference potential connection (220, 320) and to indicate a detected failure by providing a failure signal at its respective output connection (230, 330).

Abstract translation: 电子模块（100）具有第一和第二电路（200,300），其具有相应的第一和第二输出连接（230,330），相应的第一和第二参考电位连接（220,320）以及相应的第一和第二感测 连接（240,340），每个电路（200,300）包括相应的感测块（250,350），其在其输入侧连接到相应的感测连接（240,340）和相应的参考电位连接 220,320）。 第一感测连接（240）或者连接到第一输出连接（230）或者连接到第二输出连接（330）。 第二感测连接（340）连接到第二输出连接（330）。 感测块（250,350）被配置为相对于其各自的参考电位连接（220,320）检测电子模块（100）的故障，并通过在其各自的输出连接处提供故障信号来指示检测到的故障 （230,330）。

公开(公告)号：US08669805B2

公开(公告)日：2014-03-11

申请号：US13393832

申请日：2010-08-27

Applicant: Riccardo Serventi ,  Luigi Di Piro ,  Monica Schipani ,  Paolo D'Abramo

Inventor： Riccardo Serventi ,  Luigi Di Piro ,  Monica Schipani ,  Paolo D'Abramo

IPC: H03K17/687

CPC classification number: H03K19/00315 ,  H03K19/018557

Abstract: A coupling circuit has a first and a second transistor (P1, P2) of a p-channel field-effect transistor type. A drain terminal of the first transistor (P1) is connected to a signal input (1), source terminals of the first and the second transistor (P1, P2) are commonly connected to a signal output (2), bulk terminals of the first and the second transistor (P1, P2) are commonly connected to a drain terminal of the second transistor (P2), and a gate terminal of the first transistor (P1) is connected to a gate terminal of the second transistor (P2). The coupling circuit further comprises a gate control circuit (10) with a charge pump circuit (110) which is configured to generate a negative potential. The gate control circuit (10) is configured to control a gate voltage at the gate terminals of the first and the second transistor (P1, P2) based on a negative potential.

Abstract translation: 耦合电路具有p沟道场效应晶体管类型的第一和第二晶体管（P1，P2）。 第一晶体管（P1）的漏极端子连接到信号输入端（1），第一和第二晶体管（P1，P2）的源极端子共同连接到信号输出端（2），第一晶体管 并且第二晶体管（P1，P2）共同连接到第二晶体管（P2）的漏极端子，并且第一晶体管（P1）的栅极端子连接到第二晶体管（P2）的栅极端子。 耦合电路还包括具有电荷泵电路（110）的门控制电路（10），其被配置为产生负电位。 栅极控制电路（10）被配置为基于负电位来控制第一和第二晶体管（P1，P2）的栅极端子处的栅极电压。

公开(公告)号：US20070115047A1

公开(公告)日：2007-05-24

申请号：US10573455

申请日：2004-08-24

Applicant: Paolo D'Abramo ,  Riccardo Serventi

Inventor： Paolo D'Abramo ,  Riccardo Serventi

IPC: H03F1/02

CPC classification number: H03F3/45475 ,  H03F1/30 ,  H03F3/45991 ,  H03F2200/261 ,  H03F2203/45212 ,  H03F2203/45538 ,  H03F2203/45588

Abstract: A differential amplifier arrangement (53) comprising an input stage (1) and an output stage (2) is described. The input stage (1) comprises a differential amplifier (3, 4) to which an offset compensation stage (10) is connected, which comprises at least one controllable current source (11) and which controls a bias signal of the differential amplifier (3, 4). With the described differential amplifier arrangement, which can preferably be used as an instrumentation amplifier, very precise compensation of input offsets can be carried out.

Abstract translation: 描述了包括输入级（1）和输出级（2）的差分放大器装置（53）。 输入级（1）包括差分放大器（3,4），偏置补偿级（10）连接到该差分放大器（3,4），其包括至少一个可控电流源（11）并且控制差分放大器（3）的偏置信号 ，4）。 利用可以优选用作仪表放大器的所述差分放大器布置，可以执行非常精确的输入偏移补偿。

公开(公告)号：US20150022925A1

公开(公告)日：2015-01-22

申请号：US14129094

申请日：2012-05-21

Applicant: Paolo D'Abramo ,  Luigi Di Piro

Inventor： Paolo D'Abramo ,  Luigi Di Piro

IPC: H02H1/00 ,  H02H3/28

CPC classification number: H02H1/003 ,  G01R31/026 ,  G01R31/2818 ,  G09G2230/00 ,  H01L21/00 ,  H02H3/28 ,  H02M1/00

Abstract: An electronic module (100) has a first and a second circuit (200, 300) with respective first and second output connections (230, 330), respective first and second reference potential connections (220, 320), and respective first and second sensing connections (240, 340), each circuit (200, 300) comprising a respective sensing block (250, 350), which at its input side is connected to the respective sensing connection (240, 340) and to the respective reference potential connection (220, 320). The first sensing connection (240) is either connected to the first output connection (230) or to the second output connection (330). The second sensing connection (340) is connected to the second output connection (330). The sensing blocks (250, 350) are configured to detect a failure of the electronic module (100) with respect to its respective reference potential connection (220, 320) and to indicate a detected failure by providing a failure signal at its respective output connection (230, 330).

Abstract translation: 电子模块（100）具有第一和第二电路（200,300），其具有相应的第一和第二输出连接（230,330），相应的第一和第二参考电位连接（220,320）以及相应的第一和第二感测 连接（240,340），每个电路（200,300）包括相应的感测块（250,350），其在其输入侧连接到相应的感测连接（240,340）和相应的参考电位连接 220,320）。 第一感测连接（240）或者连接到第一输出连接（230）或者连接到第二输出连接（330）。 第二感测连接（340）连接到第二输出连接（330）。 感测块（250,350）被配置为相对于其各自的参考电位连接（220,320）检测电子模块（100）的故障，并通过在其各自的输出连接处提供故障信号来指示检测到的故障 （230,330）。

公开(公告)号：US07327190B2

公开(公告)日：2008-02-05

申请号：US10573455

申请日：2004-08-24

Applicant: Paolo D'Abramo ,  Riccardo Serventi

Inventor： Paolo D'Abramo ,  Riccardo Serventi

IPC: H03F1/36

CPC classification number: H03F3/45475 ,  H03F1/30 ,  H03F3/45991 ,  H03F2200/261 ,  H03F2203/45212 ,  H03F2203/45538 ,  H03F2203/45588

Abstract: Circuitry for use in a differential amplifier includes an input stage having a first differential amplifier and an offset compensation stage that includes at least one controllable current source. The offset compensation stage is connected to a bias input of the first differential amplifier. The circuitry includes an output stage having a second differential amplifier, where the output stage is after an output of the input stage, and a programmable resistor network for controlling an amplification of the input stage. The programmable resistor network controls the amplification in accordance with a feedback from the first differential amplifier.

Abstract translation: 用于差分放大器的电路包括具有第一差分放大器和包括至少一个可控电流源的偏移补偿级的输入级。 偏移补偿级连接到第一差分放大器的偏置输入。 电路包括具有第二差分放大器的输出级，其中输出级在输入级的输出之后，以及可编程电阻器网络，用于控制输入级的放大。 可编程电阻器网络根据来自第一差分放大器的反馈来控制放大。

公开(公告)号：US20070103244A1

公开(公告)日：2007-05-10

申请号：US10573454

申请日：2004-08-24

Applicant: Paolo D'Abramo ,  Riccardo Serventi

Inventor： Paolo D'Abramo ,  Riccardo Serventi

IPC: H03K3/26

CPC classification number: H03K3/0231 ,  H03K3/011

Abstract: An RC oscillator circuit is described in which a charge current (IPOSC1) is integrated in an integrator (1). In a comparator (7), an output voltage (VCAP) of the integrator is compared to a reference threshold (VTH). Depending on the comparison, a periodic signal is generated in a clock pulse generator (9). Furthermore, a reference generator (8) is provided, which generates the reference threshold (VTH) depending on the temperature and on the supply voltage of the entire circuit. In this way, the frequency dependence of the oscillator is largely compensated for as far as fluctuations in the supply voltage are concerned.

Abstract translation: 描述了一种RC振荡器电路，其中充电电流（IPOSC 1）被积分在积分器（1）中。 在比较器（7）中，将积分器的输出电压（VCAP）与参考阈值（VTH）进行比较。 根据比较，在时钟脉冲发生器（9）中产生周期性信号。 此外，提供参考发生器（8），其根据整个电路的温度和电源电压产生参考阈值（VTH）。 以这种方式，就电源电压的波动而言，振荡器的频率依赖性被大大地补偿。