公开(公告)号：US20080055134A1

公开(公告)日：2008-03-06

申请号：US11469345

申请日：2006-08-31

申请人： Kongning Li ,  Charles Leung ,  Grigori Temkine ,  Milivoje Aleksic ,  Steven Turner ,  Greg Vansickle ,  Kevin O'Neil

发明人： Kongning Li ,  Charles Leung ,  Grigori Temkine ,  Milivoje Aleksic ,  Steven Turner ,  Greg Vansickle ,  Kevin O'Neil

IPC分类号： H03M1/66

CPC分类号： H03M1/76

摘要： An n bit D/A decoder is formed using P-type and N-type transistor switches, instead of convention CMOS switches. Each P-type and N-type switch may be formed of fewer transistors than those used to form a CMOS switch, thereby reducing the overall transistor count. The decoder may be used to decode digital values to non-linear GAMMA corrected analog output voltages.

摘要翻译： 使用P型和N型晶体管开关来形成n位D / A解码器，而不是常规的CMOS开关。 每个P型和N型开关可以由比用于形成CMOS开关的晶体管更少的晶体管形成，从而降低整体晶体管数量。 解码器可用于将数字值解码为非线性GAMMA校正的模拟输出电压。

公开(公告)号：US08031093B2

公开(公告)日：2011-10-04

申请号：US12439265

申请日：2007-08-31

申请人： Kongning Li ,  Charles Leung ,  Grigori Temkine ,  Milivoje Aleksic ,  Steven Turner ,  Greg Vansickle ,  Kevin O'Neil

发明人： Kongning Li ,  Charles Leung ,  Grigori Temkine ,  Milivoje Aleksic ,  Steven Turner ,  Greg Vansickle ,  Kevin O'Neil

IPC分类号： H03M1/00 ,  H03M1/66

CPC分类号： H03M1/76

摘要： An n bit D/A decoder is formed using P-type and N-type transistor switches, instead of convention CMOS switches. Each P-type and N-type switch may be formed of fewer transistors than those used to form a CMOS switch, thereby reducing the overall transistor count. The decoder may be used to decode digital values to non-linear GAMMA corrected analog output voltages.

摘要翻译： 使用P型和N型晶体管开关来形成n位D / A解码器，而不是常规的CMOS开关。 每个P型和N型开关可以由比用于形成CMOS开关的晶体管更少的晶体管形成，从而降低整体晶体管数量。 解码器可用于将数字值解码为非线性GAMMA校正的模拟输出电压。

公开(公告)号：US20100013689A1

公开(公告)日：2010-01-21

申请号：US12439265

申请日：2007-08-31

申请人： Kongning Li ,  Charles Leung ,  Grigori Temkine ,  Milivoje Aleksic ,  Steven Turner ,  Greg Vansickle ,  Kevin O'Neil

发明人： Kongning Li ,  Charles Leung ,  Grigori Temkine ,  Milivoje Aleksic ,  Steven Turner ,  Greg Vansickle ,  Kevin O'Neil

IPC分类号： H03M1/66

CPC分类号： H03M1/76

摘要： An n bit D/A decoder is formed using P-type and N-type transistor switches, instead of convention CMOS switches. Each P-type and N-type switch may be formed of fewer transistors than those used to form a CMOS switch, thereby reducing the overall transistor count. The decoder may be used to decode digital values to non-linear GAMMA corrected analog output voltages.

摘要翻译： 使用P型和N型晶体管开关来形成n位D / A解码器，而不是常规的CMOS开关。 每个P型和N型开关可以由比用于形成CMOS开关的晶体管更少的晶体管形成，从而降低整体晶体管数量。 解码器可用于将数字值解码为非线性GAMMA校正的模拟输出电压。

公开(公告)号：US07385545B2

公开(公告)日：2008-06-10

申请号：US11469345

申请日：2006-08-31

申请人： Kongning Li ,  Charles Leung ,  Grigori Temkine ,  Milivoje Aleksic ,  Steven Turner ,  Greg Vansickle ,  Kevin O'Neil

发明人： Kongning Li ,  Charles Leung ,  Grigori Temkine ,  Milivoje Aleksic ,  Steven Turner ,  Greg Vansickle ,  Kevin O'Neil

IPC分类号： H03M1/76

CPC分类号： H03M1/76

摘要： An n bit D/A decoder is formed using P-type and N-type transistor switches, instead of convention CMOS switches. Each P-type and N-type switch may be formed of fewer transistors than those used to form a CMOS switch, thereby reducing the overall transistor count. The decoder may be used to decode digital values to non-linear GAMMA corrected analog output voltages.

摘要翻译： 使用P型和N型晶体管开关来形成n位D / A解码器，而不是常规的CMOS开关。 每个P型和N型开关可以由比用于形成CMOS开关的晶体管更少的晶体管形成，从而降低整体晶体管数量。 解码器可用于将数字值解码为非线性GAMMA校正的模拟输出电压。

公开(公告)号：US09347836B2

公开(公告)日：2016-05-24

申请号：US13296804

申请日：2011-11-15

申请人： Grigori Temkine ,  Filipp Chekmazov ,  Paul Edelshteyn ,  Oleg Drapkin ,  Kristina Au

发明人： Grigori Temkine ,  Filipp Chekmazov ,  Paul Edelshteyn ,  Oleg Drapkin ,  Kristina Au

IPC分类号： G01K7/01 ,  G06F1/20

CPC分类号： G01K7/01 ,  G06F1/206

摘要： A system and method for measuring integrated circuit (IC) temperature. An integrated circuit (IC) includes a thermal sensor and data processing circuitry. The thermal sensor utilizes switched currents provided to a reference diode and a thermal diode. The ratios of the currents provided to each of these diodes may be chosen to provide a given delta value between the resulting sampled diode voltages. At a later time, a different ratio of currents may be provided to each of these diodes to provide a second given delta value between the resulting sampled diode voltages. A differential amplifier within the data processing circuitry may receive the analog sampled voltages and determine the delta values. Other components within the data processing circuitry may at least digitize and store one or both of the delta values. A difference between the digitized delta values may calculated and used to determine an IC temperature digitized code.

摘要翻译： 一种用于测量集成电路（IC）温度的系统和方法。 集成电路（IC）包括热传感器和数据处理电路。 热传感器利用提供给参考二极管和热二极管的开关电流。 可以选择提供给这些二极管中的每一个的电流的比率以在所得到的采样二极管电压之间提供给定的Δ值。 在稍后的时间，可以向这些二极管中的每一个提供不同的电流比，以在得到的采样的二极管电压之间提供第二给定的Δ值。 数据处理电路内的差分放大器可以接收模拟采样电压并确定增量值。 数据处理电路内的其他组件可以至少数字化并存储增量值中的一个或两个。 可以计算数字化增量值之间的差异，并用于确定IC温度数字化代码。

公开(公告)号：US20080284468A1

公开(公告)日：2008-11-20

申请号：US11749002

申请日：2007-05-15

申请人： Oleg Drapkin ,  Grigori Temkine ,  Marcus Ng ,  Kevin Yikai Liang ,  Arvind Bomdica ,  Siji Menokki Kandiyil ,  Ming So ,  Samu Suryanarayana

发明人： Oleg Drapkin ,  Grigori Temkine ,  Marcus Ng ,  Kevin Yikai Liang ,  Arvind Bomdica ,  Siji Menokki Kandiyil ,  Ming So ,  Samu Suryanarayana

IPC分类号： H03K19/0175

CPC分类号： H03K19/00384 ,  H03K17/223 ,  H04L25/028

摘要： An integrated circuit is capable of controlling a communication signal by using power ramp controlled communication buffer logic to generate an outgoing communication signal based on a detected voltage on a voltage source. The voltage source is necessary to supply power for power ramp controlled communication buffer logic. The voltage on the voltage source may be detected using power ramp sensor logic. The outgoing communication signal is based on a core logic output signal if the detected voltage is greater than or equal to a predetermined voltage level. If, the detected voltage is less than the predetermined voltage level, the outgoing communication signal is predetermined to be one of: a tristate outgoing communication signal, a logic one outgoing communication signal and a logic zero outgoing communication signal. Power ramp controlled communication buffer logic may also generate a core logic input signal based on an incoming communication signal in response to the detected voltage.

摘要翻译： 集成电路能够通过使用功率斜坡控制的通信缓冲器逻辑来控制通信信号，以基于电压源上的检测到的电压来产生输出通信信号。 为电源斜坡控制的通信缓冲逻辑电源供电需要电压源。 可以使用功率斜坡传感器逻辑来检测电压源上的电压。 如果检测到的电压大于或等于预定电压电平，则输出通信信号基于核心逻辑输出信号。 如果检测到的电压小于预定电压电平，则将输出通信信号预定为三态输出通信信号，逻辑1输出通信信号和逻辑零输出通信信号之一。 功率斜坡控制通信缓冲器逻辑还可以响应于检测到的电压而基于输入通信信号生成核心逻辑输入信号。

公开(公告)号：US07239198B1

公开(公告)日：2007-07-03

申请号：US09211469

申请日：1998-12-14

申请人： Oleg Drapkin ,  Grigori Temkine

发明人： Oleg Drapkin ,  Grigori Temkine

IPC分类号： G06G7/12

CPC分类号： H03K19/018585 ,  H03K19/00315 ,  H03K19/018528

摘要： An integrated differential receiver includes a single gate oxide differential receiver and an associated switchable voltage supply circuit. The integrated differential receiver determines the desired receiver supply voltage and selects a supply voltage for the single gate oxide differential receiver. When a lower supply voltage is determined as the desired supply voltage, the integrated differential receiver automatically provides a supply voltage to the single gate oxide differential receiver with a voltage higher than the I/O pad supply voltage and higher than the maximum input signal voltage to increase the speed of operation for the differential receiver. The switchable voltage supply circuit is operatively responsive to a control signal which indicates the desired supply voltage for the I/O pad. In one embodiment, both the single gate oxide differential receiver and the switchable voltage supply circuit are single gate oxide circuits.

摘要翻译： 集成差分接收器包括单个栅极氧化物差分接收器和相关联的可切换电压供应电路。 集成差分接收器确定所需的接收器电源电压，并选择单栅极氧化物差动接收器的电源电压。 当将较低电源电压确定为所需的电源电压时，集成差分接收器自动向单栅极氧化物差动接收器提供电压，其电压高于I / O焊盘电源电压，并高于最大输入信号电压 增加差动接收器的运行速度。 可切换电压供应电路可操作地响应于指示I / O焊盘所需电源电压的控制信号。 在一个实施例中，单栅极氧化物差动接收器和可切换电压供应电路都是单栅极氧化物电路。

公开(公告)号：US07212592B2

公开(公告)日：2007-05-01

申请号：US10151483

申请日：2002-05-20

申请人： Oleg Drapkin ,  Antonio Rinaldi ,  Mikhall Rodionov ,  Grigori Temkine ,  Michael Foxcroft ,  Edward G. Callway

发明人： Oleg Drapkin ,  Antonio Rinaldi ,  Mikhall Rodionov ,  Grigori Temkine ,  Michael Foxcroft ,  Edward G. Callway

IPC分类号： H04L27/08

CPC分类号： H03M1/185 ,  H03G3/001

摘要： A digitally programmable gain control circuit and method of operating the same is disclosed. The gain control circuit includes a programmable gain amplifier having an amplifier structure represented by a plurality of overlapping discrete monotonic transfer function segments, wherein at least one point of non-monotonicity occurs among one or more of the plurality of overlapping discrete monotonic transfer function segments, and a gain segment translator circuit operative to translate a monotonic gain value to a segment code to match the non-monotonic characteristics of the programmable gain amplifier. The programmability of the gain amplifier is provided by a coarse gain control circuit and a fine gain control circuit.

摘要翻译： 公开了一种数字可编程增益控制电路及其操作方法。 所述增益控制电路包括具有由多个重叠的离散单调传递函数段表示的放大器结构的可编程增益放大器，其中在所述多个重叠离散单调传递函数段中的一个或多个中发生至少一个非单调性点， 以及增益段转换器电路，其可操作以将单调增益值转换为段码，以匹配可编程增益放大器的非单调特性。 增益放大器的可编程性由粗增益控制电路和精细增益控制电路提供。

公开(公告)号：US06833746B2

公开(公告)日：2004-12-21

申请号：US10123983

申请日：2002-04-16

申请人： Oleg Drapkin ,  Grigori Temkine

发明人： Oleg Drapkin ,  Grigori Temkine

IPC分类号： H03L500

CPC分类号： H03K19/00315

摘要： A pre-buffer voltage level shifting circuit includes a multi-supply voltage level shifting circuit having single gate oxide devices coupled to produce a pre-buffer output signal to an output buffer. The pre-buffer output signal has a level within normal gate voltage operating levels of the single gate oxide devices for each of the least a plurality of supply voltages. In one embodiment, the multi-supply voltage level shifting circuit includes a current mirror coupled to at least one of the first or second power supply voltage and also uses a non-linear device, such as a transistor configured as a diode, which is coupled to the output of current mirror. The non-linear device is coupled to receive a digital input signal from a signal source, such as from a section of core logic. A switching circuit coupled to the non-linear device selectively activates the non-linear device based on a level of the digital input signal. The circuit, in effect, shifts the core logic supply voltage up to provide efficient and safe control of single oxide gate output buffer transistor devices, such as p-channel devices.

摘要翻译： 预缓冲器电压电平移位电路包括多电源电压移位电路，其具有耦合以产生到输出缓冲器的预缓冲器输出信号的单个栅极氧化器件。 对于至少多个电源电压中的每一个，预缓冲器输出信号具有在单栅极氧化物器件的正常栅极电压工作电平内的电平。 在一个实施例中，多电源电压电平移位电路包括耦合到第一或第二电源电压中的至少一个的电流镜，并且还使用诸如被配置为二极管的晶体管的非线性器件，其被耦合 到电流镜的输出。 非线性装置被耦合以从信号源接收数字输入信号，例如来自核心逻辑的一部分。 耦合到非线性装置的开关电路基于数字输入信号的电平选择性地激活非线性装置。 实际上，该电路将核心逻辑电源电压移动，以提供对单个氧化物栅极输出缓冲晶体管器件（例如p沟道器件）的有效和安全的控制。

公开(公告)号：US06541996B1

公开(公告)日：2003-04-01

申请号：US09469084

申请日：1999-12-21

申请人： Peter L. Rosefield ,  Oleg Drapkin ,  Grigori Temkine ,  Gordon F. Caruk ,  Roche Thambimuthu ,  Kuldip Sahdra ,  Aris Balatsos

发明人： Peter L. Rosefield ,  Oleg Drapkin ,  Grigori Temkine ,  Gordon F. Caruk ,  Roche Thambimuthu ,  Kuldip Sahdra ,  Aris Balatsos

IPC分类号： H03K1923

CPC分类号： H03K19/0005

摘要： An impedance compensation circuit and method for an input/output buffer provides dynamic impedance compensation by using programmable impedance arrays and a dynamically adjustable on-chip load. Accordingly, among other advantages, only a single off-chip or external calibrated impedance resistor is used and only a single test pad is necessary.

摘要翻译： 用于输入/输出缓冲器的阻抗补偿电路和方法通过使用可编程阻抗阵列和动态可调节的片上负载来提供动态阻抗补偿。 因此，除了其他优点之外，仅使用单个芯片外部校准阻抗电阻器，并且仅需要单个测试焊盘。