采用DSP和边界扫描总线控制芯片74lvt8980设计边界扫描测试控制器。
A boundary scan controller with the USB interface is designed. DSP and 74lvt8980 are adopted to control the boundary scan bus.
并对PCI总线在氡室检测系统中的具体硬件系统结构、控制芯片与驱动软件设计,与PCI总线对核谱转换的传输性能作了阐述。
And the specific hardware system structure, control slug and the design of drive software and the transmission performance of PCI bus for nuclear spectrometry were also set forth.
然后将MCU芯片at89c51和SJA1000总线控制器结合,为实验平台设计了实时可靠的智能控制CAN节点。
Thirdly, combining MCU clip AT89C51 with bus controller SJA1000, an intelligent control CAN node for the experimental platform is designed.
文章介绍了一种采用PCI专用接口芯片pci9052作为PCI总线与DSP (TMS320 LF 2407)的接口桥接器,实现6轴运动控制卡的硬件设计方法。
In this article, to carry the 6-axis motion controller out, a method of using PCI special interface chip PCI9052 to be a interface bridge of PCI bus and DSP (TMS320LF2407), was introduced.
研究usb总线技术在电脑外设接口中的应用以及实现USB总线接口的芯片控制器。
The application of USB technology for the device connected to PC and the USB controller.
总线仲裁器模块广泛地应用于控制类芯片的各个领域。
Bus arbiter module is used in many fields of industry control.
设计了基于CAN总线的地址编码器,通信总站的数码显示电路,控制继电器电路,LNK501开关电源芯片电路。
Design the CAN bus address encoder, communication terminal digital display circuit, control relay circuit, LNK501 switching power supply chip circuitry.
其中USB总线接口芯片CH375是这一部分的核心,选择并控制USB总线的数据传输方式使之适合是本课题的关键部分。
The core of this part is the USB interface chip-CH375. Choosing and controlling the working style of the chip is the emphasis of the thesis.
作为IIC总线的一个实例分析,采用S3C44B0X作为处理器控制IIC设备TEA5767芯片,实现数字收音机的设计。
Then, as an application example of IIC bus, a digital radio design with S3C44B0X and TEA5767 chips was given in detail.
在PC 104总线控制下,应用运动控制芯片LM 629和电动机驱动芯片LMD18200实现了直流伺服电动机的控制。
The DC servo motors are controlled with motion controller LM629 and motor drive chip LMD18200 based on PC104 bus.
该方案基于USB主/从控制芯片CH375A,在单片机的控制下,实现了CAN总线数据采集系统中嵌入USB主机,从而完成把各节点采集的数据存入U盘,取代了现场数据采集系统必须有一台计算机的模式。
The proposal based on USB Host/Slave controller chip CH375A, realized a USB-Host embedded in CAN bus data acquisition system and stored acquisition data of each node in U flash disk under MCU control.
然后分别以内嵌CAN控制器的DSP芯片TMS320 LF 2407和CAN 232智能CAN接口卡为例说明了它们与CAN总线通信的工程实现方法。
Then taking DSP chip TMS320LF2407 embedded in CAN controller and CAN232 intelligent CAN adapter card as examples, it illustrates the engineering method of their communicating with CAN bus.
CAN总线接口采用协议控制芯片SJA1000,配以收发器82c250。以太网接口采用以太网控制器rtl 8019as作为物理层传输媒介。
CAN-BUS interface adopts protocol control chip SJA1000 plus receiving and sending chip 82c250. Ethernet interface adopts Ethernet controller RTL8019AS as physical transmission media.
FPGA作为控制器,经I2C总线对视频解码芯片SAA7111 A进行初始化。
FPGA as controller initialize video decode chip SAA7111A through I2C bus.
PDIUSBD 12芯片能够实现微控制器的并行总线到总线的接口功能,使用芯片可以实现多种类型的外设。
PDIUSBD12 may be used for implementing the interface between the parallel bus of the micro-controller and USB. With PDIUSBD12, users can implement multiple classes of USB functions.
论文的重点是在FPGA芯片上实现各个总线控制器以及相互之间的数据转换。
The paper focuses on realizing each field bus controller and the mutual data conversion on FPGA chips.
此竞争总线网络协议是采用单芯片微控制器8396和LAN处理器芯片82586的连接技术实现的。
Single chip microcontroller 8396 and the chip LAN coprocessor 82586 are incorporated to implement the network protocol.
现有的PCI总线控制器的实现方法有:采用专用芯片和可编程逻辑芯片。
Now there are two methods to realize the PCI Controller circuit, which are the special chip and the programming logic chip.
动静态混合算法不仅在总线仲裁器模块设计中具有指导意义,而且在其它控制类芯片中也具有很好的参考价值。
This algorithm is of reference value in the design of industry bus arbiter chip, so does in other systems.
在PCI总线接口控制上选用了专用的接口芯片pci9054,分析了PCI9054的工作模式,数据传输模式等。
The PCI9054 is a special interface chip to complete the interface of PCI, and discussed such as working pattern, transfer mode.
论文中讨论了PCI总线的基本结构,详细介绍了基于PCI总线控制卡的核心器件—PCI接口控制芯片pci9052。
The basic configuration of PCI bus is introduced, as well as PCI9052, the core component in the card, which performs the control of PCI interface.
针对小型无人机控制系统对功耗、成本、可集成性等的较高要求,设计了一种基于DSP芯片TMS320F2812的总线式飞行控制系统。
A bus-structure flight control system using DSP as processor is designed, which aims at the demands of power, cost and integration from small Unmanned Aerial Vehicle(UAV).
针对小型无人机控制系统对功耗、成本、可集成性等的较高要求,设计了一种基于DSP芯片TMS320F2812的总线式飞行控制系统。
A bus-structure flight control system using DSP as processor is designed, which aims at the demands of power, cost and integration from small Unmanned Aerial Vehicle(UAV).
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