digital multiplexors
数字多路复用器
analog multiplexors
模拟多路复用器
circuit multiplexors
电路多路复用器
input multiplexors
输入多路复用器
output multiplexors
输出多路复���器
statistical multiplexors
统计多路复用器
channel multiplexors
通道多路复用器
data multiplexors
数据多路复用器
add-drop multiplexors
分插复用器
time-division multiplexors
时分多路复用器
digital multiplexors are essential components in modern communication systems for routing multiple signals through a single channel.
数字多路复用器是现代通信系统中用于通过单通道路由多个信号的基本组件。
the multiplexer design allows efficient use of bandwidth by combining several input signals into one output stream.
多路复用器设计通过将多个输入信号合并为一个输出流来实现带宽的高效利用。
our company specializes in manufacturing high-speed data multiplexors for telecommunications applications.
我们公司专门生产用于电信应用的高速数据多路复用器。
the analog multiplexor enables the selection of one input signal from multiple sources for processing.
模拟多路复用器能够从多个源中选择一个输入信号进行处理。
time-division multiplexors divide the transmission time into slots to accommodate multiple data streams simultaneously.
时分多路复用器将传输时间划分为时隙,以同时容纳多个数据流。
the multiplexer architecture can be implemented using cmos technology for low power consumption.
多路复用器架构可以使用cmos技术实现,以降低功耗。
engineers must consider signal integrity when designing multiplexer circuits for high-frequency applications.
工程师在设计用于高频应用的多路复用器电路时必须考虑信号完整性。
frequency-division multiplexors separate signals based on different frequency bands for concurrent transmission.
频分多路复用器根据不同的频带分离信号以实现并发传输。
programmable multiplexors offer flexibility in configuration for various industrial automation scenarios.
可编程多路复用器为各种工业自动化场景提供配置的灵活性。
the multiplexer channel capacity determines how many input signals can be handled simultaneously.
多路复用器通道容量决定了可以同时处理的输入信号数量。
multiplexors with low insertion loss are preferred in satellite communication systems to maintain signal quality.
在卫星通信系统中,低插入损耗的多路复用器更受青睐,以保持信号质量。
digital multiplexors
数字多路复用器
analog multiplexors
模拟多路复用器
circuit multiplexors
电路多路复用器
input multiplexors
输入多路复用器
output multiplexors
输出多路复���器
statistical multiplexors
统计多路复用器
channel multiplexors
通道多路复用器
data multiplexors
数据多路复用器
add-drop multiplexors
分插复用器
time-division multiplexors
时分多路复用器
digital multiplexors are essential components in modern communication systems for routing multiple signals through a single channel.
数字多路复用器是现代通信系统中用于通过单通道路由多个信号的基本组件。
the multiplexer design allows efficient use of bandwidth by combining several input signals into one output stream.
多路复用器设计通过将多个输入信号合并为一个输出流来实现带宽的高效利用。
our company specializes in manufacturing high-speed data multiplexors for telecommunications applications.
我们公司专门生产用于电信应用的高速数据多路复用器。
the analog multiplexor enables the selection of one input signal from multiple sources for processing.
模拟多路复用器能够从多个源中选择一个输入信号进行处理。
time-division multiplexors divide the transmission time into slots to accommodate multiple data streams simultaneously.
时分多路复用器将传输时间划分为时隙,以同时容纳多个数据流。
the multiplexer architecture can be implemented using cmos technology for low power consumption.
多路复用器架构可以使用cmos技术实现,以降低功耗。
engineers must consider signal integrity when designing multiplexer circuits for high-frequency applications.
工程师在设计用于高频应用的多路复用器电路时必须考虑信号完整性。
frequency-division multiplexors separate signals based on different frequency bands for concurrent transmission.
频分多路复用器根据不同的频带分离信号以实现并发传输。
programmable multiplexors offer flexibility in configuration for various industrial automation scenarios.
可编程多路复用器为各种工业自动化场景提供配置的灵活性。
the multiplexer channel capacity determines how many input signals can be handled simultaneously.
多路复用器通道容量决定了可以同时处理的输入信号数量。
multiplexors with low insertion loss are preferred in satellite communication systems to maintain signal quality.
在卫星通信系统中,低插入损耗的多路复用器更受青睐,以保持信号质量。
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