公开(公告)号：US08621254B2

公开(公告)日：2013-12-31

申请号：US12739007

申请日：2008-11-25

Applicant: Annette Roder ,  Mike Thoms ,  Jurgen Brieskorn ,  Edmund Ernst ,  Karl Klug ,  Stephan Schaade

Inventor： Annette Roder ,  Mike Thoms ,  Jurgen Brieskorn ,  Edmund Ernst ,  Karl Klug ,  Stephan Schaade

IPC: G06F1/00 ,  G06F1/26 ,  G06F1/32 ,  H04M1/00

CPC classification number: H04W52/028 ,  H04M1/2535 ,  H04M2250/12 ,  Y02D70/164

Abstract: Method for an electronic device (IT) that is controllable in at least one operating state (OP) and one standby state (SBY), with which a main processing unit (MPU) controls the operating state (OP) and a preprocessing unit (PPU) controls the standby state (SBY), such that, by means of the preprocessing unit (PPU), the main processing unit (MPU) and, to some extent, the functional units of the electronic device (IT) that are implemented by circuitry are switched by the control into at least one state having reduced energy consumption. An advantage can be seen in the fact that, by using a preprocessing unit (PPU), in the operating state of “standby” (SBY) the total energy consumption of the electronic device (IT) is reduced, both due to the significantly reduced energy consumption of a preprocessor (PPE) in the preprocessing unit (PPU) and to the units (MPU) that have been switched by the control into a state having reduced energy consumption, and the electronic device can therefore be operated more economically. An additional advantage is that the reduction of the energy consumption is achieved exclusively by circuitry measures and that no implementations must be included in the programs of the electronic device (IT).

Abstract translation: 一种在至少一个操作状态（OP）和一个待机状态（SBY）中可控制的电子设备（IT）的方法，主处理单元（MPU）通过该方式控制操作状态（OP）和预处理单元（PPU） ）控制待机状态（SBY），使得通过预处理单元（PPU），主处理单元（MPU）以及在一定程度上由电路实现的电子设备（IT）的功能单元 由控制器切换成具有降低的能量消耗的至少一个状态。 可以看出，通过使用预处理单元（PPU），在“待机”（SBY）的运行状态下，电子设备（IT）的总能量消耗减少，这两者都由于显着降低 预处理单元（PPU）中的预处理器（PPE）和由控制器切换到具有降低的能量消耗的状态的单元（MPU）的能量消耗，因此可以更经济地操作电子设备。 额外的优点在于，能量消耗的降低完全由电路测量实现，并且在电子设备（IT）的程序中不包括任何实现。

公开(公告)号：US06882621B1

公开(公告)日：2005-04-19

申请号：US09673533

申请日：1999-03-03

Applicant: Jörg Köpp ,  Siegfried Huber ,  Gert Hoffmann ,  Annette Roder

Inventor： Jörg Köpp ,  Siegfried Huber ,  Gert Hoffmann ,  Annette Roder

IPC: H04Q3/64 ,  H04J1/16

CPC classification number: H04Q3/64 ,  H04Q2213/1302 ,  H04Q2213/1304 ,  H04Q2213/13166 ,  H04Q2213/13167 ,  H04Q2213/1334

Abstract: In the Prior Art, a higher-ranking mechanism controls the standby circuiting of assemblies in 1:N redundancy, resulting in a system dynamics loss. The invention solves this problem in that the devices responsible for the standby circuiting events in the higher-ranking mechanism are relocated into a standby circuit assembly of the 1:N redundancy provided for standby circuiting purposes. The standby circuit events are thus controlled and monitored by the standby circuit assembly itself, relieving the higher-ranking mechanism of these tasks.

Abstract translation: 在现有技术中，较高级别的机构以1：N冗余来控制组件的备用电路，导致系统动态损耗。 本发明解决了这样一个问题，即将负责高级机构中的备用电路事件的设备重新定位到备用电路组件中，以备备电路目的提供1：N冗余。 因此，备用电路事件由备用电路组件本身进行控制和监视，从而减轻了这些任务的较高级别的机制。

公开(公告)号：US07050450B1

公开(公告)日：2006-05-23

申请号：US09763483

申请日：1999-08-26

Applicant: Stefan Hennen ,  Eckhardt Belgardt ,  Annette Roder ,  Klemens Skorka ,  Klaus Steinigke

Inventor： Stefan Hennen ,  Eckhardt Belgardt ,  Annette Roder ,  Klemens Skorka ,  Klaus Steinigke

IPC: H04L12/28 ,  H04L12/56

CPC classification number: H04J3/0688 ,  H04J3/0691

Abstract: A telecommunications system includes devices to provide output clock signals that are synchronous to at least one source clock signal. A main clock generator includes a selector to select one of the output clock signals. The main clock generator generates a main clock signal based on a selected one of the output clock signals. Each of the devices includes a quality detector (i) to detect a quality of the at least one source clock signal, and (ii) to interrupt providing an output clock signal in response to a decrease in quality of the at least one source clock signal. The main clock generator includes an interrupt detector to detect an interruption in an output clock signal provided by at least one of the devices. The selector selects a different output clock signal if the interrupt detector detects that the selected one of the output clock signals is interrupted.

Abstract translation: 电信系统包括提供与至少一个源时钟信号同步的输出时钟信号的装置。 主时钟发生器包括选择器以选择输出时钟信号之一。 主时钟发生器基于所选择的一个输出时钟信号产生主时钟信号。 每个设备包括质量检测器（i）以检测至少一个源时钟信号的质量，以及（ii）响应于至少一个源时钟信号的质量的降低而中断提供输出时钟信号 。 主时钟发生器包括一个中断检测器，用于检测由至少一个器件提供的输出时钟信号的中断。 如果中断检测器检测到所选择的一个输出时钟信号中断，选择器选择不同的输出时钟信号。

公开(公告)号：US07286567B1

公开(公告)日：2007-10-23

申请号：US09786063

申请日：1999-08-26

Applicant: Stefan Hennen ,  Annette Roder ,  Klemens Skorka ,  Klaus Steinigke

Inventor： Stefan Hennen ,  Annette Roder ,  Klemens Skorka ,  Klaus Steinigke

IPC: H04J3/06

CPC classification number: H04J3/0685 ,  H04J3/0688 ,  H04J3/0691

Abstract: Telecommunications systems can be synchronized via the transmission link. In this process, the telecommunication systems receive the clock signal and an additional information item, which describes the quality of the clock signal, from the received data stream. In telecommunication systems which are connected to a number of differently standardized transmission networks, different algorithms for evaluating the differently formatted clock signal quality data are necessary in the main processor. The present telecommunication system simplifies the communication of clock signal qualities. The different interface cards have converters which convert the clock signal quality information between a transmission-network-specific format and an independent format. The main processor only contains a subunit for processing all clock signal qualities. The present method for synchronizing a telecommunication system includes a converting the transmission-network-specific data into messages of an independent format. The present method for transmitting data includes converting the independently formatted messages into transmission-network-specific data.

Abstract translation: 电信系统可以通过传输链路进行同步。 在该过程中，电信系统从接收的数据流接收时钟信号和描述时钟信号的质量的附加信息项。 在连接到多个不同标准化的传输网络的电信系统中，在主处理器中需要用于评估不同格式的时钟信号质量数据的不同算法。 目前的电信系统简化了时钟信号质量的通信。 不同的接口卡具有转换器，其将传输网络特定格式和独立格式之间的时钟信号质量信息进行转换。 主处理器仅包含用于处理所有时钟信号质量的子单元。 用于同步电信系统的本方法包括将传输网特定数据转换为独立格式的消息。 本发明数据的方法包括将独立格式的消息转换为传输网特定的数据。

公开(公告)号：US20110022863A1

公开(公告)日：2011-01-27

申请号：US12739007

申请日：2008-11-25

Applicant: Annette Roder ,  Mike Thoms ,  Jurgen Brieskorn ,  Edmund Ernst ,  Karl Klug ,  Stephan Schaade

Inventor： Annette Roder ,  Mike Thoms ,  Jurgen Brieskorn ,  Edmund Ernst ,  Karl Klug ,  Stephan Schaade

IPC: G06F1/00

CPC classification number: H04W52/028 ,  H04M1/2535 ,  H04M2250/12 ,  Y02D70/164

Abstract: Method for an electronic device (IT) that is controllable in at least one operating state (OP) and one standby state (SBY), with which a main processing unit (MPU) controls the operating state (OP) and a preprocessing unit (PPU) controls the standby state (SBY), such that, by means of the preprocessing unit (PPU), the main processing unit (MPU) and, to some extent, the functional units of the electronic device (IT) that are implemented by circuitry are switched by the control into at least one state having reduced energy consumption. An advantage can be seen in the fact that, by using a preprocessing unit (PPU), in the operating state of “standby” (SBY) the total energy consumption of the electronic device (IT) is reduced, both due to the significantly reduced energy consumption of a preprocessor (PPE) in the preprocessing unit (PPU) and to the units (MPU) that have been switched by the control into a state having reduced energy consumption, and the electronic device can therefore be operated more economically. An additional advantage is that the reduction of the energy consumption is achieved exclusively by circuitry measures and that no implementations must be included in the programs of the electronic device (IT).

Abstract translation: 一种在至少一个操作状态（OP）和一个待机状态（SBY）中可控制的电子设备（IT）的方法，主处理单元（MPU）通过该方式控制操作状态（OP）和预处理单元（PPU） ）控制待机状态（SBY），使得通过预处理单元（PPU），主处理单元（MPU）以及在一定程度上由电路实现的电子设备（IT）的功能单元 由控制器切换成具有降低的能量消耗的至少一个状态。 可以看出，通过使用预处理单元（PPU），在“待机”（SBY）的运行状态下，电子设备（IT）的总能量消耗减少，这两者都由于显着降低 预处理单元（PPU）中的预处理器（PPE）和由控制器切换到具有降低的能量消耗的状态的单元（MPU）的能量消耗，因此可以更经济地操作电子设备。 额外的优点在于，能量消耗的降低完全由电路测量实现，并且在电子设备（IT）的程序中不包括任何实现。