现代电子技术
現代電子技術
현대전자기술
MODERN ELECTRONICS TECHNIQUE
2013年
23期
127-129,132
,共4页
盛臻%单长虹%蒋小军%刘丹丹
盛臻%單長虹%蔣小軍%劉丹丹
성진%단장홍%장소군%류단단
全数字锁相环%自适应%比例积分控制%电子设计自动化%现场可编程门阵列
全數字鎖相環%自適應%比例積分控製%電子設計自動化%現場可編程門陣列
전수자쇄상배%자괄응%비례적분공제%전자설계자동화%현장가편정문진렬
all digital phase locked-loop%adaptive%PI control%electronic design automation(EDA)%FPGA
针对传统锁相环所存在的锁相范围窄、环路带宽和控制参数固定、以及提高锁相速度与减小稳态误差相互制约等问题,提出了一种新型带宽自适应全数字锁相环。该系统采用比例积分控制与自适应控制相结合的复合控制方式,其中自适应控制器可根据锁相过程的鉴频鉴相信息,自动调整数字滤波器的控制参数,实现对环路的实时控制。采用理论分析与硬件电路设计相结合的方法进行了系统设计,并用FPGA予以实现。系统仿真与硬件电路测试结果证实了设计方案的正确性。该锁相环的自由振荡频率可随输入信号频率的变化而改变,具有电路结构简单、锁相范围广、锁定速度快和稳态误差小等特点。
針對傳統鎖相環所存在的鎖相範圍窄、環路帶寬和控製參數固定、以及提高鎖相速度與減小穩態誤差相互製約等問題,提齣瞭一種新型帶寬自適應全數字鎖相環。該繫統採用比例積分控製與自適應控製相結閤的複閤控製方式,其中自適應控製器可根據鎖相過程的鑒頻鑒相信息,自動調整數字濾波器的控製參數,實現對環路的實時控製。採用理論分析與硬件電路設計相結閤的方法進行瞭繫統設計,併用FPGA予以實現。繫統倣真與硬件電路測試結果證實瞭設計方案的正確性。該鎖相環的自由振盪頻率可隨輸入信號頻率的變化而改變,具有電路結構簡單、鎖相範圍廣、鎖定速度快和穩態誤差小等特點。
침대전통쇄상배소존재적쇄상범위착、배로대관화공제삼수고정、이급제고쇄상속도여감소은태오차상호제약등문제,제출료일충신형대관자괄응전수자쇄상배。해계통채용비례적분공제여자괄응공제상결합적복합공제방식,기중자괄응공제기가근거쇄상과정적감빈감상신식,자동조정수자려파기적공제삼수,실현대배로적실시공제。채용이론분석여경건전로설계상결합적방법진행료계통설계,병용FPGA여이실현。계통방진여경건전로측시결과증실료설계방안적정학성。해쇄상배적자유진탕빈솔가수수입신호빈솔적변화이개변,구유전로결구간단、쇄상범위엄、쇄정속도쾌화은태오차소등특점。
In view of the problems existing in the traditional phase-locked loops(PLL)about narrow locking range,fixed loop bandwidth and control parameters, interaction between increasing locking speed and decreasing static errors,a new type of adaptive-bandwidth with all digital phase-locked loop is proposed,which adopts compound control mode which combines PI control with adaptive control. The adaptive controller would adjust the control parameters of the digital filter according to the detected information of phase and frequency to realize real-time control. The design of the system adopts the method that with a combination of the theoretical analysis and hardware circuit design,and it is implemented by FPGA. The design project is verified by the results from system simulation and hardware circuit test. The free oscillating frequency of the PLL can change along with the input signal frequency. The system has the advantages of simple circuit structure,wide locking range,fast locking speed and small steady state error.