摘要
A novel high-bandwidth, high-sensitivity differential optical receiver without any additional cost compared to general optical receivers, is proposed for high-speed optical communications and interconnections. High bandwidth and high sensitivity are achieved through a fully differential transimpedance amplifier with balanced input loads and two photodetectors to convert the incident light into a pair of differential photogenerated currents,respectively. In addition,a corresponding 0.35μm standard CMOS optoelectronic integrated receiver with two 60μm × 30μm, 1. 483pF fingered p^+/n- well/p-substrate photodiodes is also presented. The simulation results demonstrate that it achieves a 1.37GHz bandwidth and a 81.9dBΩ transimpedance gain,supporting data rates up to at least 2Gbit/s. The device consumes a core area of 0. 198mm^2 and the optical sensitivity is at least - 13dBm for a 10^-12 bit error rate under a 2^15 - 1 PRBS input signal.
提出了一种可应用于高速光通信和光互连的新型高带宽、高灵敏度差分光接收机.其中,高带宽和高灵敏度分别通过输入负载平衡的全差分跨阻前置放大器和将入射光信号转换成一对差分光生电流信号的两个光电探测器来实现.与常用光接收机相比,这种新型光接收机无任何附加成本.设计了一种相应的、与0.35μm标准CMOS工艺完全兼容的光电集成接收机.其中,光电探测器采用面积为60μm×30μm、结电容为1.483pF的插指型p+/n-well/p-substrate光电二极管.仿真结果表明:该光电集成接收机的带宽为1.37GHz;跨阻增益为81.9dBΩ;面积为0.198 mm2;数据传输率至少可达2Gb/s ;对于215-1位的输入伪随机码序列(PRBS),在误码率为10-12条件下,灵敏度至少可达-13dBm.
基金
国家自然科学基金(批准号:60536030 ,60676038)
天津市自然科学基金(批准号:06YFJZJC00200)资助项目~~
