给出了主控制芯片LPC2132与HT1625的硬件接口电路和部分由ADS1.2编译的驱动子程序。
This paper also introduces the HT1625 and LPC2132's hardware interface and some LCD driving subprograms translated with ADS1.2.
本文主要介绍逆变电源的分析和该ups逆变系统的硬件设计和软件设计,主控制芯片采用TMS320F240。
This dissertation chiefly introduces the analysis of this inverter power and the design of hardware and software of this UPS, and the core control chip is TMS320F240 which is produced by ti corp.
控制电路采用微处理器AT89S52作为主控制芯片,矩阵按键和液晶显示构成操作平台,可设置射频信号的频率;
Console is based on micro control chip AT89S52, LCD and button matrix composition platform to set the frequency of the transmitted signals;
操纵台采用的主要芯片是89c52。模拟试验台的主控制程序采用VC编制。
The main chip of the control box is 89c52. The main control program is made by VC.
本文介绍一种USB2.0设备控制芯片IP核的设计,并且主要对其中的主控制器的设计进行介绍。
This thesis introduces the design of USB2.0 IP CORE for USB device controller, and mainly about the design of the main controller of the IP CORE.
以TMS320F2812作为主控CPU,以IR2110作为驱动芯片,完成了导弹舵机伺服控制系统的硬件设计,进行了控制器主电路的分析与设计。
The missile rudder servo controller adopts TMS320F2812 as main CPU, IR2110 as drive chip. Each part of main circuit is analyzed in detail.
因此论文采用了低功耗的数字信号处理器作为主控芯片,构成一种基于数字信号处理器的控制与选线系统。
So, the thesis adopts a type of low loss DSP processor as main controller which composing the control and fault feeder detection system based on DSP in order to deal with the question.
设计采用数字信号处理器(TMS320 LF 2407dsp)作为主控芯片,能提高控制系统的实时性和数据处理能力。
This design USES digital signal processor (TMS320LF2407 DSP) as a control chip, which helps the system to improve the real-time control capability and data processing capability.
系统以SPMC75 F 2413 A作为主控芯片来控制单相桥式逆变主电路。
The SPMC75F2413A chip is used as main control chip to control single-phase bridge inverter main circuit.
论文中选用TMS320F 240数字信号处理芯片作为系统的主控芯片,实现了全数字化的直接磁场定向的矢量控制系统。
TMS320F240 digital signal processor that is selected as the main CPU in the system realizes the full digital vector control system.
本文以TMS320 LF 2407 A作为主控芯片,设计了整个系统的主控制电路。
In this paper, the total system control circuit based on TMS320LF2407A was designed.
针对传统无线通信是单向传输的局限问题,设计了基于nRF 905射频芯片的双向通信系统并以单片机为主控制单元。
Based on the traditional wireless communications limited transmissions is limited, based on the NRF905 rf chip design of two-way communication system and MCU control unit mainly.
该数据采集系统采用TI公司的TMS320 LF 2407 A芯片为主控制器,另外设计了相应的外围信号调理电路、存储模块、通信模块等。
The data acquisition system adopted TMS320LF2407A chip of ti as main controller, in addition, designed peripheral signal processing circuit, memory module, communication module and so on.
针对不间断供电的需求,介绍了一种以m 68hc 908sr12单片机为主控芯片的双电源转换控制器的研制方案。
To satisfy demand for uninterrupted power supply, the developing scheme of double power switch controller taking M68HC908SR12 controller as main control chip was introduced.
然后根据配料秤流量控制的设计要求,设计了以at91sam 7x256单片机为主控芯片的配料秤控制器。
According to the design requirements for flow control of a batching scale, this paper designs a batching scale controller with AT91SAM7X256 single chip microcomputer as the master control chip.
论文在分析了电动滑板的工作原理和功能需求的基础上,提出了一种以STC12C5410AD为主控芯片进行遥控和电机调速驱动控制,实现数字化、智能化的控制。
On the other hand, STC12C5410AD be used main chip in the circuit for remote control and speed of adjustment. The circuit realizes the digital and intelligent control.
该系统按照坦克电传动的特点、以DSP为主控芯片设计成的数字控制双闭环系统。
The electric drive system is designed on the basis of the electric transmission feature in tank, which composed of DSP is a two closed loop and digital control system.
设计开发的电除尘器电源控制器采用ARM9系列STR912微控制器作为主控芯片,供电电源及信号输入输出模块采用光耦隔离设计方案。
Power controller adopts STR912 of ARM9 series as microcontroller, and USES the technique of optical coupling isolation within the input, output and power supply module.
该实例是利用AT 90CAN 128这块芯片做主控芯片,ATA6660做CAN的控制器,通过对芯片里面的寄存器进行操控,来完成对数据的传输。
The instance utilizes the chip AT90CAN128 as the main chip and the chip ATA6660 as Can transceiver. The Can bus transmits the data by controlling the inside registers.
以ARM7处理器(at91sam7s64)为主控芯片的嵌入式光伏MPPT控制方案,由太阳跟踪器和二维平面支架控制器组成。
A embedded PV MPPT control scheme is proposed with ARM7 processor (AT91SAM7S64) as the main control chip. The system consists of sun-tracking device and two-dimensional plane support controller.
本实验平台采用CYGNAL公司的一款完全集成的混合信号系统级芯片C 8051f 320作为主控芯片,同时采用AT 89 C51单片机作为可控硅触发板的控制芯片。
This platform USES C8051F320 device of CYGNAL as main control chip which is fully integrated mixed-signal System-on-a-Chip MCUs, and AT89C51 MCU as silicon control triggering control chip.
电动机采用ML 4425专用芯片作为主控芯片,通过调压控制电机的转速,从而达到控制血液流量及压力的目的。
ASIC chip ML4425 was used as the central control unit. The speed of the motor can be controlled by changing the input voltage and hence the flux and pressure of blood can also be controlled.
分别介绍了主控制器电路、串口扩展电路、RS- 485集成收发器等的设计方法,以及电路芯片的选取。
The design methods of main controller circuit, serial port expanding circuit, RS-485 integrated transceiver, etc., are introduced as well as their chips.
分别介绍了主控制器电路、串口扩展电路、RS- 485集成收发器等的设计方法,以及电路芯片的选取。
The design methods of main controller circuit, serial port expanding circuit, RS-485 integrated transceiver, etc., are introduced as well as their chips.
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