FreescalePXS20三相太陽能逆變器解決方案

Freescale公司的PXS20是32位雙核雙發(fā)射的Power Architecture微控制器,滿足安全標(biāo)準(zhǔn)IEC61511和IEC61508 (SIL3),能降低設(shè)計(jì)復(fù)雜性和減少所用元件.PXS20采用高性能的e200z4d雙核,核頻率高達(dá)120MHz,雙發(fā)射級(jí)流水線核,可變長度編碼(VLE),集成了存儲(chǔ)器管理單元(MMU)和信號(hào)處理引擎,帶誤差檢測(cè)代碼的4KB指令緩存,主要用在消費(fèi)類電子,工業(yè)控制,太陽能逆變器,機(jī)器人和馬達(dá)控制等.本文介紹了PXS20主要特性,方框圖,以及采用PXS20控制的太陽能三相逆變器基本架構(gòu),1kW, 3kW,10kW和大于10kW以及微逆變器的太陽能三相逆變器解決方案架構(gòu)圖.

The PXS20 family of 32-bit Power Architecture? microcontrollers is designed to specifically address the requirements of the safety standards IEC61511 and IEC61508 (SIL3). It reduces design complexity and component count by putting key functional safety features on a single chip with a dual-core, dual-issue architecture, which can be statically switched between lockstep mode (redundant processing and calculations) to decoupled parallel mode (independent core operation). The PXS20 microcontrollers are SafeAssure solutions.

The PXS20 series microcontrollers are system-on-chip devices that are built on Power Architecture technology and contain enhancements that improve the architecture’s fit in embedded applications, include additional instruction support for digital signal processing (DSP) and integrate technologies such as an enhanced time processor unit, enhanced queued analog-to-digital converter, Controller Area Network, and an enhanced modular input-output system.

The PXS20 family of 32-bit microcontrollers is the latest achievement in integrated safety controllers. The advanced and cost-efficient host processor core of the PXS20 family complies with the Power Architecture embedded category. It operates at speeds as high as 120 MHz and offers high-performance processing optimized for low power consumption. It capitalizes on the available development infrastructure of current Power Architecture devices and is supported with software drivers, operating systems and configuration code to assist with users’ implementations.

PXS20主要特性:

? High-performance e200z4d dual core

– 32-bit Power Architecture? technology CPU

– Core frequency as high as 120 MHz

– Dual issue five-stage pipeline core

– Variable Length Encoding (VLE)

– Memory Management Unit (MMU)

– 4 KB instruction cache with error detection code

– Signal processing engine (SPE)

? Memory available

– 1 MB flash memory with ECC

– 128 KB on-chip SRAM with ECC

– Built-in RWW capabilities for EEPROM emulation

? SIL3/ASILD innovative safety concept: LockStep mode and Fail-safe protection

Sphere of replication (SoR) for key components (such as CPU core, eDMA, crossbar switch)

– Fault collection and control unit (FCCU)

– Redundancy control and checker unit (RCCU) on outputs of the SoR connected to FCCU

– Boot-time Built-In Self-Test for Memory (MBIST) and Logic (LBIST) triggered by hardware

– Boot-time Built-In Self-Test for ADC and flash memory triggered by software

– Replicated safety enhanced watchdog

– Replicated junction temperature sensor

– Non-maskable interrupt (NMI)

– 16-region memory protection unit (MPU)

– Clock monitoring units (CMU)

– Power management unit (PMU)

– Cyclic redundancy check (CRC) unit

? Decoupled Parallel mode for high-performance use of replicated cores

? Nexus Class 3+ interface

? Interrupts

– Replicated 16-priority controller

– Replicated 16-channel eDMA controller

? GPIOs individually programmable as input, output or special function

? Three 6-channel general-purpose eTimer units

? 2 FlexPWM units

– Four 16-bit channels per module

? Communications interfaces

– 2 LINFlexD channels

– 3 DSPI channels with automatic chip select generation

– 2 FlexCAN interfaces (2.0B Active) with 32 message objects

FlexRay module (V2.1 Rev. A) with 2 channels, 64 message buffers and data rates up to 10 Mbit/s

? Two 12-bit analog-to-digital converters (ADCs)

– 16 input channels

– Programmable cross triggering unit (CTU) to synchronize ADCs conversion with timer and PWM

? Sine wave generator (D/A with low pass filter)

? On-chip CAN/UART bootstrap loader

? Single 3.0 V to 3.6 V voltage supply

? Ambient temperature range –40℃ to 125℃

? Junction temperature range –40℃ to 150℃

PXS20目標(biāo)應(yīng)用:

Consumer:

Boiler Heating Control Industrial

Programmable Logic Control (PLC)

Input-Output Control (I/O Control)

Off-Grid Solar Power Inverters

Commercial Solar Power Inverters

Residential Solar Power Inverters

Unmanned Vehicles (Ground, Air, Water)

Motion Control

Process Control

Robot Manipulator

Robotic Arm

Medical/Healthcare

Anesthesia Unit Monitor

Ventilators and Respirators

Motor Control

Stepper Motor

圖1. PXS20方框圖

采用PXS20控制的太陽能三相逆變器

Solar Panel 3-Phase Inverter Controlled by the PXS20

Today, the demand for green energy is very strong. One possible option for meeting this demand is to convert solar energy into electrical energy. This process is supported by the photovoltaic (PV) solar panel, which produces various DC output voltages and output power.

In the conversion from DC to AC power, dedicated inverters maintain the right working point for the solar panel to maximize its use of solar energy. Freescale Semiconductor’s processors built on Power Architecture? technology are well suited for the control of such inverters. Freescale offers a broad portfolio of PX microcontrollers built on Power Architecture technology for power management and motor control applications. The target portfolio for these devices includes consumer, industrial, and other markets. One microcontroller from the PX Series of Power Architecture devices can control the whole 3-phase inverter in various configurations and output power.

圖2.太陽能三相逆變器基本架構(gòu)圖

圖3.采用H橋拓?fù)涞奶柲苋嗄孀兤鞯腜WM連接框圖

The demonstrator uses a standard PXS20 controller board and a 3-phase inverter analog board that can support an H-bridge or H5 topology. The input of each phase is represented by the isolated 15V DC power supplies (replacing the solar panels in this demonstrator). The control and measurement circuitry can be powered by the separated DC power source, or by one of the phase power sources.


圖4.太陽能三相逆變器演示板外形圖

圖5.小于1kW的太陽能三相逆變器解決方案

圖6.小于3kW的太陽能三相逆變器解決方案

圖7.小于10kW的太陽能三相逆變器解決方案

圖8.大于10kW的太陽能三相逆變器解決方案

圖9.太陽能微逆變器解決方案
詳情請(qǐng)見:
http://cache.freescale.com/files/32bit/doc/data_sheet/PXS20.pdf?fpsp=1
和
http://cache.freescale.com/files/32bit/doc/app_note/AN4437.pdf?pspll=1