CAN子网由一个主控制器协调,该主控制器也为主CAN总线提供网关。
The CAN subnets are coordinated by a master controller that also provides the gateway to the main CAN bus.
本设计实现了在MIC总线冗余系统中主控制器与从控制器间的数据通讯。
This design realizes the data communication between the main controller and accessary controller in MIC bus redundancy system.
本地主控机通过RS485总线向现场信号采集设备发送控制指令并接收采集的测试数据,从而实现对rs485总线通信的控制。
The local controller sends steering order to field signal-acquisition equipments and receives test data from RS485 bus, thereby communication control of RS485 bus was realized.
采用了RS485和CAN总线接口,实现了电子送经卷取控制系统和织机主控制系统之间的通讯。
The electronic let-off and electronic take-up system USES RS485 and CAN BUS to communicate with the main control system of a loom.
将CAN现场总线技术应用到控制现场底层设备与主控IPC的通讯,实现测控信息处理的现场化。
The CAN Field Bus causes the information to be processed in control field and realize the communication between the control field equipment and the host IPC.
单片机通过CAN总线向主控制器发送检测数据,主控制器经过判断可主动启动并完成车体的制动动作。
The microcontrollers transmit data to the main controller by the CAN bus, the main controller can start-up and finish the brake action initiatively after estimating.
USB技术在嵌入式系统中有两种主要的应用方式:即作为USB总线设备的USB设备方式和作为USB主控制器的嵌入式USB主机。
There are generally two modes of USB technology could be used in embedded systems, one is the USB device mode using as USB Devices and the other is USB host mode using as USB Host Controllers.
该有限状态机作为主控制模块的核心,主要用于完成控制MTM总线的消息传送顺序;
The FSM is the core of master module, it controls the transmission of the messages on the MTM bus.
该有限状态机作为主控制模块的核心,主要用于完成控制MTM总线的消息传送顺序;
The FSM is the core of master module, it controls the transmission of the messages on the MTM bus.
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