液晶与显示
液晶與顯示
액정여현시
CHINESE JOURNAL OF LIQUID CRYSTALS AND DISPLAYS
2015年
3期
451-458
,共8页
张飙%周国清%杨小平%刘源%程小辉%周祥%刘毅龙
張飆%週國清%楊小平%劉源%程小輝%週祥%劉毅龍
장표%주국청%양소평%류원%정소휘%주상%류의룡
ZigBee网络%分布式系统%底板+核心板%单播%广播%交通诱导屏
ZigBee網絡%分佈式繫統%底闆+覈心闆%單播%廣播%交通誘導屏
ZigBee망락%분포식계통%저판+핵심판%단파%엄파%교통유도병
ZigBee wireless network%distributed system%core board and base board%point to point communication%broadcast communication%variable message sign
针对当前 LED交通诱导屏要求高可靠、高稳定、少维修的特点,本文将整块显示屏分为多个子区域,利用 ZigBee无线网络对各子区域进行分布式控制。每个子区域作为一个ZigBee节点由一片CC2530控制实现显示、通信、检测等功能。所有节点硬件设计相同,均含高频核心板与低频底板。主控制模块与远程控制中心通信,生成各子区域的点阵显示数据并传送给协调器。使用Z-Stack协议栈在基于事件处理的多任务构架下设计了用户程序,实现了单播和广播通信,以及基于有限状态机的串口通信。高频核心板+低频底板的结构可降低PCB制板成本并提高电路板通用性和互换性。该设计增加了系统稳定性和可靠性,防止了故障扩散,减少了维修频度,还能将数据吞吐量分担到多个 CPU 上,使整个系统成为多核并行处理机。
針對噹前 LED交通誘導屏要求高可靠、高穩定、少維脩的特點,本文將整塊顯示屏分為多箇子區域,利用 ZigBee無線網絡對各子區域進行分佈式控製。每箇子區域作為一箇ZigBee節點由一片CC2530控製實現顯示、通信、檢測等功能。所有節點硬件設計相同,均含高頻覈心闆與低頻底闆。主控製模塊與遠程控製中心通信,生成各子區域的點陣顯示數據併傳送給協調器。使用Z-Stack協議棧在基于事件處理的多任務構架下設計瞭用戶程序,實現瞭單播和廣播通信,以及基于有限狀態機的串口通信。高頻覈心闆+低頻底闆的結構可降低PCB製闆成本併提高電路闆通用性和互換性。該設計增加瞭繫統穩定性和可靠性,防止瞭故障擴散,減少瞭維脩頻度,還能將數據吞吐量分擔到多箇 CPU 上,使整箇繫統成為多覈併行處理機。
침대당전 LED교통유도병요구고가고、고은정、소유수적특점,본문장정괴현시병분위다개자구역,이용 ZigBee무선망락대각자구역진행분포식공제。매개자구역작위일개ZigBee절점유일편CC2530공제실현현시、통신、검측등공능。소유절점경건설계상동,균함고빈핵심판여저빈저판。주공제모괴여원정공제중심통신,생성각자구역적점진현시수거병전송급협조기。사용Z-Stack협의잔재기우사건처리적다임무구가하설계료용호정서,실현료단파화엄파통신,이급기우유한상태궤적천구통신。고빈핵심판+저빈저판적결구가강저PCB제판성본병제고전로판통용성화호환성。해설계증가료계통은정성화가고성,방지료고장확산,감소료유수빈도,환능장수거탄토량분담도다개 CPU 상,사정개계통성위다핵병행처리궤。
According to the character of LED variable message sign which requires high reliability, high stability and less maintenance,in this paper,the whole LED variable message sign is divided into multiple sub areas,and ZigBee wireless network is applied in each sub-area to realize distributed con-trol.Each sub-area becomes a ZigBee node which is controlled by CC2530 to complete display,com-munication,sensing and so on.The hardware design for every node is the same,which consists of high frequency core board and low frequency base board.Master control module communicates with remote control center,generates dot matrix display data for each sub-area and transmits these display data to coordinator.User program which is based on event process of multitask architecture is de-signed by employing Z-stack protocol.The user program includes point to point communication, broadcast communication and serial communication that is based on finite state machine.Structure of high frequency core board and low frequency base board is beneficial to lower manufacture cost of print circuit board and improve universality and interchangeability.This design enhances reliability and sta-bility,avoids fault spread,reduces maintenance frequency,allocates total data throughout to multiple CPUs,makes the whole system become a multi-core processor.