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授課教授 : 陳永耀 博士 學生 : 藍浩濤 P90921001 電機所控制組

全新架構的全數位式無類比鎖相倍頻電路 Create DLL circuit and Multiple frequency with VHDL or VERILOG in CPLD,FPGA or ASIC. 授課教授 : 陳永耀 博士 學生 : 藍浩濤 P90921001 電機所控制組. OUTLINE. Abstract Purposes of DLL DLL Definition and Principle Circuit Design with VHDL in CPLD and FPGA Flowchart

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授課教授 : 陳永耀 博士 學生 : 藍浩濤 P90921001 電機所控制組

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  1. 全新架構的全數位式無類比鎖相倍頻電路Create DLL circuit and Multiple frequency with VHDL or VERILOG in CPLD,FPGA or ASIC 授課教授 : 陳永耀 博士 學生 : 藍浩濤 P90921001 電機所控制組

  2. OUTLINE • Abstract • Purposes of DLL • DLL Definition and Principle • Circuit Design with VHDL in CPLD and FPGA Flowchart • Simulation Wave for Lattice CPLD • Experimental Results on Oscilloscope • Conclusions

  3. Abstract • DLL usually implements with logic and analog circuit in ASIC design. • CPLD and FPGA are logic devices,and must design DLL or PLL to implement in devices design first. • Could we create a simple DLL circuit with VHDL or Verilog implementing in CPLD, FPGA or ASIC ?

  4. Purposes of DLL • ADC and DAC • CPU design • Single chip design • SOC design • DDR design • Wireless circuit • DSP

  5. DLL definition and principle • DLL ( Delay Lock Loop )

  6. Circuit design with VHDL in CPLD and FPGA Flowchart Language Description RTL ( Register Transfer Level) Transfer to RTL format Cell Mapping Optimal circuit Auto Compiler Flow in CPLD and FPGA Netlist of circuit

  7. Simulation Waves for Lattice CPLD • Lattice 2032VE-110 • Lattice 2064VE-100 • Lattice M4A3-256/100 • Altera EPM7032LC44-6

  8. Lattice 2032VE-110

  9. Lattice 2032VE-110

  10. Lattice 2064VE-100

  11. Lattice M4A3-256/100

  12. Altera EPM7032LC44-6

  13. Experimental Results on Oscilloscope Lattice M4A3-256/160-10YC 及電路板實際外觀

  14. Lattice 2064VE-100LT100 及電路板實際外觀

  15. Lattice M4A3-256/160-10YC 延遲的輸出波形

  16. Lattice M4A3-256/160-10YC 倍頻的輸出波形

  17. Lattice 2064VE-100LT100 鎖相的輸出波形

  18. Lattice 2064VE-100LT100 鎖相的輸出波形

  19. Lattice 2064VE-100LT100 延遲的輸出波形

  20. Lattice 2064VE-100LT100 鎖相的輸出波形

  21. Lattice 2064VE-100LT100 鎖相的輸出波形

  22. Lattice 2064VE-100LT100 倍頻的輸出波形

  23. Lattice 2064VE-100LT100 延遲的輸出波形 儀器誤差+電路板誤差+測試棒誤差+測試棒接點電阻延遲誤差+電路板RC延遲誤差 = 900ps

  24. Conclusions • 鎖相只需一個 延遲時間(only one locking time) • 只有靜態耗電,沒有動態耗電 • 可輕易的實現於CPLD,FPGA,ASIC • Fully IP • 無Jitter • 完全沒有類比電路,也不需要IC外部的電阻電容或者是電感 • 無VCO 內部震盪器

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