向后兼容(BC)和向前兼容(FC)方式都是通过version属性触发的,而不是处理程序开关或者启动选项。
Backwards compatibility (BC) and FC modes are always triggered by the version attribute, not by any processor switch or launch-time option.
采用它制作高频开关电源,不仅简化了电路,同时可以改善电源的电磁兼容性能,且降低了制作成本。
High frequency switching power supply made from it can not only simplify the circuit, but also can improve the EMC characteristics and reduce the cost.
开关主机和插卡是否兼容系统中的其它设备,以实现触发、控制及连接?
Are the switch mainframe and CARDS compatible with other equipment in the system with respect to triggering, controls, and connections?
反激式开关变压器和反馈控制回路设计,以及考虑电磁兼容性对电路的改进,是其关键技术。
The design of flyback switching transformer and feedback control loop and the improvement of the circuit for considering electromagnetic compatibility are the critical technologies.
该设备也可以在普及L波段开关模式与传统机顶盒,并与通常使用的由安装盘的对准测量设备向后兼容配置。
The device can also be configured in universal L-band switch mode for backward compatibility with legacy STBs and with dish alignment measurement equipment typically used by installers.
提供一种改造的切换开关,其具有与现有设计兼容的机械和电气接口。
A retrofit diverter switch which has a mechanical and electrical interface that is compatible with the existing designs is provided.
请注意,这些开关是与年纪较大的风格馆拉杆气缸(磁代码3选择)起磁铁外,所有纽曼帝克磁铁兼容。
Please note that these switches are compatible with all Numatics magnets with the exception of older style Hall effect magnets for tie rod cylinders (magnet code 3 option).
其次,对微机开关电源的关键器件开关变压器进行电磁兼容预测。
Secondly, the EMC predict of the switching transformer of the computer switching mode power supply is discussed.
针对开关电源印制电路板的电磁兼容性设计,从PCB的布局与布线、接地等方面提出设计原则及注意事项。
The design rules and observing proceedings are presented from the layouts, wires placing and grounding of the printed circuit board (PCB) aiming at the EMC design of switch power supplies.
效率可达97%的开关稳压器r 78完全兼容低效率线性集成稳压器78系列。
The efficiency of R78 switching regulator is 97%. The lower-efficient linear integrate regulator 78 series is entirely compatible by switching regulator R78.
本文介绍了数控系统开关电源电磁兼容性emc涉及的内容,然后提出开关电源电磁兼容性的设计方法。
This paper introduces the content of electromagnetic compatibility (EMC) of CNC system switching power source and design method of it.
如果采用流量开关、浮动开关,或其他类型的感应器,请咨询美国瓦茨,了解兼容性。
If a Flow Switch, Float Switch, or other type of sensor is used, please contact Watts for compatibility.
对于兼容Keithley 7001和7002型主机的开关卡,利用卡上的跳线可连接或断开背板连接。
For some switch CARDS compatible with Keithley's Models 7001 and 7002 mainframes, jumpers on the switch CARDS enable connection or disconnection from the back plane.
最后总结分析了开关型变换器电磁兼容性优化设计的原则和方法。
In the end, principles and methods of optimal design of the EMC on full bridge switching-mode converters are analyzed.
机械和电气接口的兼容特性支持从传统有载分接开关到基于真空的有载分接开关的改造。
The feature where the mechanical and electrical interface is compatible enables a retrofit from traditional on Load Tap Changers to a vacuum based on Load Tap Changers.
EMI不仅影响开关电源的电磁兼容(EMC)性能,而且影响开关电源的工作成本。
EMI affects both the electromagnetic compatibility (EMC) performance and the cost of operation for SMPS.
本文首先根据电磁兼容的标准和设计规则,阐述了开关电源电磁兼容的设计原理。
This text, according to the electromagnetic and compatible standard and design rule at first, has explained the electromagnetic and compatible design principle of the switch power.
分析了开关电源产生电磁干扰的主要原因,并给出了相应的抑制措施,从而提高开关电源的电磁兼容性。
The sources of electromagnetic interference from switching-mode power supply were analyzed and some control methods were presented for the improvement of electromagnetic compatibility.
本文介绍了开关电源的电磁兼容技术的基本概念,并详细阐述了利用滤波器解决 开关电源的电磁兼容问题的方法。
This article summarizes the basic concept of the switching power EMC, and introduces the method of making use of the Filter to solve the switching power EMC.
简要分析了通信开关电源的电磁兼容性要求、电磁兼容性的成因及解决方法。
This paper simply analyzes EMC requirement of communication switching mode power supply, the reason of EMC and the way to research.
由于本开关电源系统应用环境恶劣,在硬件电路设计时,分析了电磁兼容问题,从硬件设计上保证了系统工作稳定性。
This SMPS is applied in execrable circumstances, so when designing the hardware circuit, EMC problem is also discussed, which insures the SMPS system working stability.
由于本开关电源系统应用环境恶劣,在硬件电路设计时,分析了电磁兼容问题,从硬件设计上保证了系统工作稳定性。
This SMPS is applied in execrable circumstances, so when designing the hardware circuit, EMC problem is also discussed, which insures the SMPS system working stability.
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