This paper uses DSP as control chip, and has achieved double control for system.
该文采用了DSP作为控制芯片,实现了系统的双闭环控制。
According to the characteristic of BLDCM and the function of the chip, sensor control solutions which are based on DSP technology are presented.
根据无刷直流电动机的特点和DSP芯片的功能,提出了基于DSP的控制方案。
According to the demand of the system control, the DSP - TMS320LF2407A is chosen as the control chip of the drive motor.
根据系统的控制要求,选用TMS320 LF 2407 A作为驱动电机的控制芯片。
In order to improve systematic operation precision and speed, adopt fixed DSP chip TMS320VC5402to calculate and control, and measuring northern direction Angle corner accurately fast.
为了提高系统的运算精度和速度,采用定点DSP芯片TMS320 VC 5402进行计算和控制,以快速准确测出真北方位角。
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。
It included five parts of driving, control, communication, computation and feedback based on DSP chip TMS320LF2407.
该系统包括驱动、控制、通信、计算和反馈五部分,并DSP芯片TMS320 LF 2407。
The system, with a DSP chip and a single chip microcomputer composing the control system, can perform CPR and monitoring at the same time.
系统采用DSP处理芯片和单片机组成的控制系统,使心肺复苏的同时还具有监护功能。
To drive motion components, the thesis examines the controlling principle of DC motor and the methods and circuits of using the DSP chip and DC motor control modules to realize the DC motor control.
为驱动运动部件,本文研究了直流电机控制原理以及利用DSP芯片结合直流电机控制模块实现直流电机控制的方法和电路。
Adopt the DSP (TMS320F240) chip to realizes control system that have the transcendental rate and ability of calculation and to handle.
采用具有超凡速度和运算处理能力的DSP (TMS320F240)芯片实现对系统的控制。
The DSP chip, which is special for complex mathematical operation and control fields, has rapid operation speed and higher mathematical operation ability.
专门用于复杂数学算法处理和复杂控制领域的DSP芯片具有较快的系统速度和较强的数学运算能力,比一般的单片机具有很强的数学运算能力。
The practice experiment utilizes the TMS320F240 type DSP as the kernel control chip.
用TMS320F240型号的DSP作为核心控制芯片,完成实验。
With regards to the hardware design, a DSP chip TMS320F206 is adopted as CPU, and builds a hardware platform of sample, control, communication and human interface.
硬件设计方面采用DSP芯片TMS320F206为核心处理器,建立起基本的采样、控制、通信和人机接口硬件平台。
The controller make up of TMS320F2812 DSP chip, detecting circuits include sampling circuit, modulate circuit and phase locked loop and other periphery control and drive circuit.
本文设计的控制器以TMS320F2812DSP芯片为核心,加上检测电路(包括采样电路、调理电路、锁相环等)和其它外围控制和驱动电路构成。
The digital inverter is controlled by a TMS320F240 DSP chip, which applying the improved digital PI control arithmetic of the current prediction and the double control loops of voltage and current.
数字化逆变器的控制采用TMS320F 240芯片来实现,在其软件中采用了用于电流预估计的PI控制算法和电压电流的双环控制。
An experimental platform of motor control is designed using the new DSP chip TMS320LF2407A specific for motor control by TI, which including software and hardware.
采用TI公司最新的面向电机控制的DSP芯片TMS320 LF 2407a,设计了一个通用的电机控制实验平台。本平台包括软硬件两部分。
With the appearance of high-performance Digital Signal Processor (DSP) chip, it is possible that some most advanced control strategies can be used to the PV grid-connected system.
高性能的数字信号处理器芯片(dsp)的出现,使得一些先进的控制策略应用于光伏并网的控制成为可能。
Then, DSP chip TMS320LF2407 of TI company is chosen as the CPU of control system, and the control system of the automatic sort device is designed.
然后,选择TI公司的DSP芯片TMS320LF2407作为控制系统的中央处理器,进行了自动分捡装置控制系统的设计。
The system useTMS320F240 DSP chip which is specialized in motor control system, the chip contains many special module for motor control, and decrease peripheral instruments labor.
系统采用电动机控制专用DSP芯片TMS320F240,该芯片集成了许多电动机运动控制所需的功能模块,减少了外围电路设计工作;
According to the demand of the flywheel's drive system, the DSP -tms320lf2407a is chosen as the control chip of the drive motor.
根据飞轮驱动系统的控制要求,选用TMS320 LF 2407 A作为驱动电机的控制芯片。
The control system applies TMS320F2812 which is a powerful 32-bit fixed point DSP chip as its control core, and can apply AC step-motion control theory.
该控制系统采用功能强大的32位定点DSP芯片TM S320F 2812为控制核心,能够实现永磁同步电机的交流步进控制。
And this design makes DSP TMS320F2812 be control chip. This method improves switching frequency and control precision. It can achieve Full Digital control.
为了提高开关频率和控制精度以达到更好的效果,设计中采用数字信号处理器TMS320F 2812作为控制芯片,实现了全数字化控制。
Introduction was made to basic structure and performance of DSP chip, giving out hardware design plan for induction motor vector control plan, software control algorithm.
介绍了DSP处理器的基本结构和性能,给出了感应电机矢量控制的硬件设计方案和软件控制算法。
Finally, designs brushless DC motor control system hardware circuits based on TI's DSP chip TMS320F2812 and ir's IR2133, and compose the corresponding software.
最后,基于TI公司的DSP芯片TMS320F 2812和IR公司的驱动芯片IR 2133设计了直流无刷电动机控制系统的硬件电路,并编写了相应的软件。
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 data encrypt card using DSP chip, PCI interface chip, asynchronism FIFO chip and EPLD that realize the control of the data encrypt card is designed and implemented.
数据加解密卡的硬件设计和实现。采用DSP芯片、PCI接口芯片、异步FIFO等器件,通过EPLD控制实现了数据加解密卡;
DSP chip is applied in hardware design to ensure real-time performance of control system, and fuzzy-neural network algorithm is adopted to overcome uncertainness of control model.
控制系统的硬件采用了DSP芯片,以保证系统的实时性;软件采用了模糊-神经网络算法,以克服系统模型的不确定性。
The high speed signal process chip DSP also introduced in the system, in order to process the data of the control methods.
结合高速的数字信号处理芯片dsp,对控制算法进行离散化处理、运算。
The high speed signal process chip DSP also introduced in the system, in order to process the data of the control methods.
结合高速的数字信号处理芯片dsp,对控制算法进行离散化处理、运算。
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