TI公司F2802x Piccolo馬達(dá)MCU控制方案
德州儀器半導(dǎo)體有限公司的F2802x Piccolo系列MCU采用C28x內(nèi)核,是高效率32位MCU,工作頻繁3達(dá)60Mz,并集成了眾多控制外設(shè),引腳數(shù)目少.內(nèi)部的電壓穩(wěn)壓器使得它能采用單電源3.3V工作.模擬比較器采用10位基準(zhǔn),能直接控制PWM輸出,ADC轉(zhuǎn)換器把0V到3.3V的模擬轉(zhuǎn)換成數(shù)字信號(hào).本文介紹了F2802x Piccolo系列MCU的主要特性,方框圖以及數(shù)字馬達(dá)控制和PFC套件的主要特性, 完整的永磁馬達(dá)控制系統(tǒng)和馬達(dá)控制和PFC開發(fā)套件方框圖。
本文引用地址:http://www.ex-cimer.com/article/196590.htmThe F2802x Piccolo family of microcontrollers provides the power of the C28x core coupled with highly integrated control peripherals in low pin-count devices. This family is code compatible with previous C28-based code, as well as providing a high level of analog integration.
An internal voltage regulator allows for single rail operation. Enhancements have been made to the HRPWM module to allow for dual-edge control (frequency modulation). Analog comparators with internal 10-bit references have been added and can be routed directly to control the PWM outputs. The ADC converts from 0 to 3.3-V fixed full scale range and supports ratio-metric VREFHI/VREFLO references. The interface has been optimized for with low overhead/latency.
F2802x主要特性:
圖1.F2802x方框圖
數(shù)字馬達(dá)控制和PFC套件
Digital motor control was first introduced to overcome the challenges that traditional analog systems had in handling drift, aging of components and variations caused by temperature. Flexible software algorithms not only eliminated tolerance issues relating to components, they enabled developers to dynamically accommodate variations in environmental conditions over time. For example, rather than only being able to turn a fan motor full on or off, with a digital implementation, fan speed can now be adjusted based on system temperature.
Additionally, systems can calibrate themselves, thus eliminating the need to schedule regular, manual maintenance.
Today’s microcontrollers (MCUs) bring even greater precision, power efficiency and reduced cost to a wide range of applications, including:
White goods and appliances with blowers and compressors such washers and refrigerators
HVAC (Heating, Ventilation and Air Conditioning) systems
Industrial servo drives used for motion control, power supply inverters and robotics
Automotive control systems, including power steering, anti-lock brakes and suspension controls Creating robust digitally controlled systems has never been easier. TI’s Motor Control and PFC Developer’s Kit as well as the Dual-Motor Control and PFC Developer’s Kit are based on Piccolo MCUs to give developers a platform that accelerates development and troubleshooting of motor control systems. The intuitive kits even teach developers unfamiliar with PFC how to merge PFC with motor control applications of all types.
The Motor Control and PFC kits provide direct access to all of the enhancements and features of the Piccolo architecture. Extensive software libraries and thorough documentation lead developers through the process of creating a complete motor control system utilizing real-time algorithms. The kit also enables developers to determine quickly the processing resources required to implement basic motor control. From this baseline, they are then able to bring in advanced algorithms to trade-off the remaining processing capacity for greater accuracy, better performance, higher power efficiency, control of multiple motors and a myriad of other options. In this way, developers can architect systems specifically optimized for their application constraints and requirements.
圖2.數(shù)字馬達(dá)控制和PFC套件外形圖
圖3.完整的永磁馬達(dá)控制系統(tǒng)
圖4.馬達(dá)控制和PFC開發(fā)套件方框圖
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