介绍利用AT 89 C51单片机,作为可编程接口芯片的使用方法。
This paper introduces the way of using AT89C51 single chip computer as programmable interface chip.
介绍了新型通信控制器的硬件设计,着重描述了通信接口部分,用复杂可编程逻辑器件CPLD解决了CAN 控制器芯片SJA 1000与AT 91RM 9200之间的时序逻辑问题。
The hardware structure is introduced, emphatically the communication interface circuit. The time sequence logic problem between CAN controller chip SJA1000 and AT91RM9200 is solved using the CPLD.
介绍了可编程视频输入编码芯片SAA7111和可编程视频解码输出芯片SAA7185工作原理和接口电路设计。
Introduces operation principle and interface circuit design of Video Input Processor SAA7111 and Video Output Processor SAA7185.
利用CPLD芯片的大容量、可编程特性,设计了具有缓存功能的高速异步串行通信接口芯片,以满足日益提高的快速串行通信要求。
Making use of large inner capacity and programmable resource of a CPLD chip, a high speed UART with buffer bas been designed to meet communication requirement.
该驱动板以现场可编程逻辑门阵列为DSP与编码器、脉冲命令和功率模块等电路之间的接口,以最新的智能功率模块(IPM)作为功率输出驱动芯片。
FPGA is used as interface between the DSP and the encoder, pulse command and power module. The latest intelligent power module (IPM) is used to provide the function of power stage.
模拟接口芯片(aic)具有高度可编程性、与DSP接口简单、高性能低功耗等特点。
Analog interface circuit (AIC) chip is high programmable, simple to interface to DSP, and also low in power dissipation.
模拟接口芯片(aic)具有高度可编程性、与DSP接口简单、高性能低功耗等特点。
Analog interface circuit (AIC) chip is high programmable, simple to interface to DSP, and also low in power dissipation.
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