使用中心与分支或总线模型以实现最大的灵活性和性能,在大型环境中尤其是如此。
Use hub and spoke or bus models for maximum flexibility and performance, especially in large environments.
现场总线在应用中主要考虑其通信电缆、通信电源故障,“T”型分支或终端电阻故障也会引起总线故障。
The main facts we should consider are the trouble caused by the communication cable, communication power, t type branch or the terminal resistor problem in the application of site bus technology.
第一总线驱动器(11)基于是否检测到传输的符号模式,从星形网络(1)中禁用第一网络分支(112)。
The first bus driver (11) is disabling the first network branch (112) from the star network (1) based on whether the transmitted symbol pattern is detected.
推入总线125的第一分支127可以占据96个时隙,其中每个时隙都为热传感器120之一所保留。
A first branch 127 of the push bus 125 May take up to 96 time slots, where each time slot is reserved for one of the thermal sensors 120.
推入总线125的第二分支135可以占据96个时隙,其中每个时隙都为EMON计数器之一所保留。
The second branch 135 of the push bus 125 may take up to 96 time slots. , where each time slot is reserved for one of the EMON counters.
现场总线是连接现场设备和自动化系统的数字式、双向传输、多分支结构的通信网络。
Fieldbus is a digital, bi - directional, poly - branched communication network connecting field devices in automation control system.
现场总线则是衔接智能现场设备和主动化系统地数字式、双向传输、多分支构造地通讯收集,其根底是智能仪表。
Fieldbus intelligent field devices are connected and digital automation system, two-way transmission, multi-branch structure of the communications network, based on smart meters.
推入总线105的每一分支127都可用所有的热传感器120来监视一个核105。 由推入总线125从热传感器120中收集来的所有数据随后被发送给PCU115。
Each branch 127 of the push bus 105 may monitor one core 105 with all the thermal sensors 120, All the data collected from the thermal sensors 120 by the push bus 125 is then sent to the PCU 115.
推入总线105的每一分支127都可用所有的热传感器120来监视一个核105。 由推入总线125从热传感器120中收集来的所有数据随后被发送给PCU115。
Each branch 127 of the push bus 105 may monitor one core 105 with all the thermal sensors 120, All the data collected from the thermal sensors 120 by the push bus 125 is then sent to the PCU 115.
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