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3500/25 149369-01 增强型关键相量模块 将信号转换为数字键相量信号

3500/25 149369-01增强型关键相量模块是一种半高双通道模块,用于向3500机架中的监控模块提供关键相量信号。  该模块接收来自接近探头或磁性拾取器的输入信号,并将信号转换为数字键相量信号,当轴上的键相量标记与键相量换能器重合时指示。

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 3500/25 149369-01 增强型关键相量模块  将信号转换为数字键相量信号

GE / Bently Nevada 3500/25增强型关键相量模块

部件编号:149369-01

3500/25 149369-01增强型关键相量模块是一种半高双通道模块,用于向3500机架中的监控模块提供关键相量信号。  该模块接收来自接近探头或磁性拾取器的输入信号,并将信号转换为数字键相量信号,当轴上的键相量标记与键相量换能器重合时指示。


3500/25 149369-01增强型关键相量模块是一个改进的3500系统模块。  与以前的设计相比,它提供了扩展的Keyphasor信号处理能力,同时在形式、适合度和功能方面保持了与现有Keyphasor模块的向下兼容性,可用于遗留系统。

增强型关键相量模块将输入信号转换为数字键相量信号的过程通常涉及以下步骤:


信号调理:这一步涉及对输入信号进行必要的调整,以适应后续处理。  这可能包括放大、滤波、去噪等操作,以确保信号质量。

模数转换:将调理后的模拟信号转换为数字信号。  这通常通过模数转换器(ADC)完成,它会将连续的模拟信号转换为离散的数字值。

信号处理:这一步可能涉及更复杂的算法,用于进一步处理和提取关键信息。  例如,它可能包括特征提取、波形分析或其他高级处理技术。

键相量标记:一旦从输入信号中提取了关键信息,这些信息通常会被编码为键相量标记。  这可能涉及到将信息映射到特定的标记或代码,这些标记或代码代表了不同的相量状态或事件。

输出: 3500/25 149369-01最后,数字键相量信号会被输出到需要的地方,如监控系统、控制系统或其他设备。

需要注意的是,具体实现可能会根据不同的应用和需求而有所不同。  如需了解更多关于增强型关键相量模块的工作原理,建议咨询专业技术人员或查阅相关技术文档。

 3500/25 149369-01 增强型关键相量模块  将信号转换为数字键相量信号


GE/Bently Nevada 3500/25 Enhanced critical phasor module

Part number :149369-01

The 3500/25 149369-01 Enhanced Critical Phasor module is a semi-high dual-channel module that provides critical phasor signals to the monitoring module in the 3500 rack. The module receives an input signal from a close probe or magnetic picker and converts the signal into a digital key phasor signal, indicating when the key phasor mark on the axis coincides with the key phasor transducer.


3500/25 149369-01 The Enhanced Critical Phasor Module is an improved 3500 system module. It provides extended Keyphasor signal processing capabilities compared to previous designs, while maintaining backward compatibility with existing Keyphasor modules in terms of form, fitness, and functionality for use in legacy systems.

The process by which an enhanced critical phasor module converts an input signal to a digital key phasor signal typically involves the following steps:


Signal conditioning: This step involves making the necessary adjustments to the input signal to accommodate subsequent processing. This may include operations such as amplification, filtering, denoising, etc., to ensure signal quality.

Analog-to-digital conversion: converts the conditioned analog signal into a digital signal. This is usually done with an analog-to-digital converter (ADC), which converts a continuous analog signal into a discrete digital value.

Signal Processing: This step may involve more complex algorithms for further processing and extracting critical information. For example, it may include feature extraction, waveform analysis, or other advanced processing techniques.

Key phasor tags: Once key information has been extracted from the input signal, this information is usually encoded as a key phasor tag. This may involve mapping information to specific tags or codes that represent different phasor states or events.

Output: 3500/25 149369-01 Finally, the digital key phasor signal is output to where it is needed, such as a monitoring system, control system or other equipment.

It is important to note that the specific implementation may vary depending on the application and requirements. To learn more about the working principle of the enhanced critical phasor module, it is recommended to consult a professional or consult the relevant technical documentation.

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