The SPMC75F2413A chip is used as main control chip to control single-phase bridge inverter main circuit.
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。
It USES FPGA as its main control chip. The FPGA comprises a spike generator, a serial-to-parallel converter and some multiplexers.
采用FPGA作为主控芯片,在FPGA内部设计了刺激脉冲发生器,多路选择器和串并转换器。
The PFC system developed by this paper chooses IRMCF343 as the main control chip, which has a unique asymmetric dual-core structure.
本课题开发的数字PFC系统以IRMCF343为主要控制芯片。IRMCF343为独特的不对称双核结构。
It USES AT91RM9200 as its main control chip, and transmits vibration signal to the PC work station which analyses the signal in real time.
本系统采用了AT 91rm 9200作为主控芯片,并实时将采样信号传输到PC工作站,供PC工作站分析。
To satisfy demand for uninterrupted power supply, the developing scheme of double power switch controller taking M68HC908SR12 controller as main control chip was introduced.
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。
Because of the embedded system is a more widely concept, so this paper HCS12 as the main control chip with camera group as an example to car debugging debugging method was introduced.
由于嵌入式系统是一个比较广的概念,所以本文以HCS12作为主控芯片的摄像头组小车调试为例对调试方法进行介绍。
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.
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。
The software and hardware design of the substrate control system which USES 89s52 as the main control chip, the PC's operating software and the communication protocols are given in this paper.
给出了以89s52为主控芯片的下位机系统的软硬件设计,并给出了上位机操作软件和与下位机的通信协议。
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.
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。
Among them the control system of hardware has introduced the peripheral circuit including main chip mainly, the module the signal gathers and the motor driving module.
其中硬件控制系统主要介绍了包括主芯片的外围电路,信号采集模块以及电机驱动模块。
The main chip of the control box is 89c52. The main control program is made by VC.
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。
Its structure, including the main sensor detection modules, single-chip information processing module, data modules, and modules such as feedback control.
主要其结构包括传感检测模块,单片机信息处理模块,数据显示模块和反馈控制等模块。
The thesis discusses on how to research and then design the LED video panel system, which is a typical product of computer digital video system, by using the PLD chip as the main control logic.
本论文讨论用PLD芯片作为主要控制逻辑来设计计算机数字视频系统的一个典型应用型产品——LED视频电子显示屏系统的研制方法。
Design a position control module which USES DSP as the main chip.
设计了以DSP芯片作为控制核心的位置控制模块。
Based on DSP chip TMS320F2812, designed the circuit of the simulator, and contained the control circuit, the main circuit and the Operation circuit.
围绕DSP芯片TMS320F 2812,设计了模拟励磁系统硬件电路,包括主电路、操纵电路和控制电路。
The control core of frequency converter composed of the single chip microcomputer AT89C51 and sine PWM chip HEF4752, the main circuits and flow charts are given also.
使用AT 89 C 51单片机和HEF4752正弦pwm信号专用芯片作为变频部分的控制核心,给出了主要部分电路原理图和软件流程图。
In this article, the whole design process of temperature control system is described. The system constitutes frame diagram, hardware circuit, main chip function and working principle are given.
描述了温度控制系统的整个设计过程,给出了系统的组成框图、硬件电路、主要芯片的功能和工作原理。列出了系统的所有软件流程图。
At last the main introduction is the using of LCD in combination with 80c196kc in single chip computer control system, including hardware interface and software design.
最后,主要介绍了液晶显示器在单片机控制系统中与80c 196kc的结合使用,其中包括硬件接口以及软件设计。
The New-style monitor for vehicle braking system performance with AT89C52 single-chip computer as core control and accelerometer ADXL202 as main detector is introduced.
文章介绍了以AT89C52单片机为核心、以ADXL202为主要探测部件的汽车制动性能测试仪。
This paper I use TI's DSP chip design TMS320LF2407A type, a frequency inverter, I realized the main circuit power supply digital control, and improved output voltage accuracy and stability.
本文采用TI公司的TMS320 LF 2407a型DSP芯片设计了一种中频逆变电源,对电源主电路实现了全数字控制,提高了输出电压的精度和稳定度。
The DSP sends out the phase shifting control signal and then that amplified by IR2110 chip. It can realize ZVS of the full bridge converter main power switch by the phase shifting drive control.
由DSP发出移相控制信号并经芯片IR 2110驱动放大,在移相驱动信号的控制下可以实现全桥变换器主功率开关的ZVS。
The control core of frequency converter composed of the single chip microcomputer AT89C51 and sine PWM chip SLE4520, the main circuits and flow charts are given also.
使用AT 89 C 51单片机和SLE4520正弦pwm信号专用芯片作为变频部分的控制核心,给出了主要部分电路原理图和软件流程图。
This system consists of interactive-drawing programming system, control of working, power source with large power pulse, the main unit uses pentium 586 chip.
本控制系统由交互式绘图编程、加工控制、大功率脉冲电源三部分组成,主机采用奔腾586计算机。
Main circuit uses independent RC pulse generator and control circuit can control the main circuit based on 8051 single chip microcomputer and TC4427 high-speed power MOSFET driver.
其主电路采用了独立式RC脉冲放电回路,控制电路则通过8051单片机和TC4427高速MOSFET驱动器完成对主电路的控制。
On the basis of analyzing the control process completely, the thesis designs yaw control system for WTGs using 89c51 single-chip computer as a main control unit.
在详细分析偏航控制系统控制要求的基础上,采用单片机89c51作为主控单元,设计了风电机组的偏航控制系统。
The hardware circuit of control system and the flowchart of main control program for software were designed by using PIC single chip (microprocessor).
以pic单片机为核心设计了控制系统的硬件电路和软件流程。
A numerical PID control system which USES 8098 single chip microcomputer as its main controller is introduced in this paper.
本文介绍一种以8098单片机为主控制器的数字PID控制系统。
A numerical PID control system which USES 8098 single chip microcomputer as its main controller is introduced in this paper.
本文介绍一种以8098单片机为主控制器的数字PID控制系统。
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