1.
高速数字电路设计..........................................................................................................................5
1.1何谓高速数字信号?..................................................................................................................5
1.2微带线、带状线的概念..............................................................................................................5
1.2.1微带线(Microstrip)......................................................................................................5
1.2.2带状线(Stripline).........................................................................................................6
1.2.3经验数据...........................................................................................................................6
1.2.4同轴线(coaxial
cable)..................................................................................................6
1.2.5双绞线(twisted-pair
cable)..........................................................................................7
1.2.6等间隔的电容负载的影响...............................................................................................7
1.3
常见高速电路.............................................................................................................................8
1.3.1 ECL(Emitter Coupled
Logic)电路...............................................................................8
1.3.2 CML(Current Mode
Logic)电路.................................................................................9
1.3.3 GTL(Gunning Transceiver
Logic)电路.....................................................................10
1.3.4 BTL(Backplane Transceiver
Logic)电路...................................................................10
1.3.5 TTL(Transistor Transistor
Logic)电路......................................................................11
1.3.6
模数转换电路—线接收器............................................................................................12
1.4
常见电路匹配措施...................................................................................................................12
1.4.1反射................................................................................................................................12
1.4.2终端匹配.........................................................................................................................13
1.4.3始端匹配.........................................................................................................................15
1.5
高速电路设计一般原则和调试方法.......................................................................................16
1.5.1同步逻辑设计.................................................................................................................16
1.5.2了解选用器件的输入、输出结构,选用恰当的匹配电路;在考虑节省功耗,电路
又能容许的情况下,可适当地引入失配。..............................................................................19
1.5.3对极高速率(300MHz以上)的信号,一般建议选用互补逻辑,以降低对电源的要求。.........................................................................................................................................19
1.5.4了解每一根高速信号电流的流向(电流环).............................................................19
1.5.5信号的布线、电源和地层的分割,是否符合微带线、带状线的要求?高速信号要有回路地相配(不是屏蔽地)..............................................................................................19
1.5.6电源滤波.........................................................................................................................19
1.5.7对很高速度的信号要估算其走线延迟。.....................................................................19
1.5.8在满足速度要求的前提下,尽量选用工作速率低的器件。.....................................19
1.5.9差分线尽量靠近走线.....................................................................................................19
1.5.10测试方法:选择有50Ω输入的高速示波器,一般自制一个探头,测量点应尽量靠近所观察的位置或者需要该信号的实际位置。一般不建议测输出端的信号波形,与实际
2
当前离线
