This paper presents a design of human computer interface based on SPI-bus module ZLG7289A.
本文介绍了基于SPI总线模块ZLG7289A的人机接口设计。
While an interface from the battery system to the main can bus may be desirable, SPI or I2C communications can be advantageous within the battery pack.
尽管从电池系统到主CAN总线有一个接口也许是可取的,但在电池组内部,SPI或I2C通信是有利的。
With SPI serial bus to carry out the serial correspondence between MCU and voice chip.
使用SPI串行总线可以达到MCU与语音芯片串行通信的目的。
A single microcontroller controls the entire stack of battery monitors via the SPI-compatible serial interface, and it also is the gateway to the main CAN bus.
单个微控制器通过spi兼容的串行接口控制整组电池监视器,该微控制器也是至主CAN总线的网关。
LCD with SPI bus can be easily controlled.
用SPI总线可对LCD进行轻松控制。
Due to lack of data and address parallel bus on TMS320F2808, the two DSPexchange data by means of communication through SPI interface.
由于采用的TMS320F 2808不具备数据总线与地址总线,两个DSP之间采用SPI串行通讯的方式实现数据交换。
The repeater can connect two CAN-bus subnetworks by use of the built-in can controllers of the two MCU C8051F060s. Two C8051F060s can transmit data through SPI interfaces.
本中继器采用两个C8051F060单片机内置CAN控制器连接不同的子网,两个C8051F 060通过SPI接口进行数据传输。
The use of multi-channel buffered serial port MCBSP is to achieve SPI bus (mode of) data collection, and the real-time data transmission and storage is achieved by the use of two DMA controllers.
利用多通道缓存串行口mcbsp实现SPI总线方式的数据采集,并采用两个DMA控制器实现了数据的实时传输和存储。
The use of multi-channel buffered serial port MCBSP is to achieve SPI bus (mode of) data collection, and the real-time data transmission and storage is achieved by the use of two DMA controllers.
利用多通道缓存串行口mcbsp实现SPI总线方式的数据采集,并采用两个DMA控制器实现了数据的实时传输和存储。
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