文件名称:TEL02_2
介绍说明--下载内容均来自于网络,请自行研究使用
This communication presents an alysis of the design and fabrication of power-efficient, low
cost VCSEL-based optical transceiver proposed for emerging fiber data distributed interface
(FDDI) and fiber channel local-area network (FCLAN
to meet the increasing amount of information transmitted through communication networks.
VCSEL devices operating at low temperature display decrease jitter, increase output power
and enhance lifetime. Also, temperature gradient on large opto-electronic (OE) device arrays
generates performance non-uniformities and lowers the bit-error-rate (BER) of the optical
links. In addition, lowering the power consumption of optical transceivers contributes to the
overall reduction of the system power budget.-This communication presents an analysis of the design and fabrication of power-efficient, low
cost VCSEL-based optical transceiver proposed for emerging fiber data distributed interface
(FDDI) and fiber channel local-area network (FCLAN
to meet the increasing amount of information transmitted through communication networks.
VCSEL devices operating at low temperature display decrease jitter, increase output power
and enhance lifetime. Also, temperature gradient on large opto-electronic (OE) device arrays
generates performance non-uniformities and lowers the bit-error-rate (BER) of the optical
links. In addition, lowering the power consumption of optical transceivers contributes to the
overall reduction of the system power budget.
cost VCSEL-based optical transceiver proposed for emerging fiber data distributed interface
(FDDI) and fiber channel local-area network (FCLAN
to meet the increasing amount of information transmitted through communication networks.
VCSEL devices operating at low temperature display decrease jitter, increase output power
and enhance lifetime. Also, temperature gradient on large opto-electronic (OE) device arrays
generates performance non-uniformities and lowers the bit-error-rate (BER) of the optical
links. In addition, lowering the power consumption of optical transceivers contributes to the
overall reduction of the system power budget.-This communication presents an analysis of the design and fabrication of power-efficient, low
cost VCSEL-based optical transceiver proposed for emerging fiber data distributed interface
(FDDI) and fiber channel local-area network (FCLAN
to meet the increasing amount of information transmitted through communication networks.
VCSEL devices operating at low temperature display decrease jitter, increase output power
and enhance lifetime. Also, temperature gradient on large opto-electronic (OE) device arrays
generates performance non-uniformities and lowers the bit-error-rate (BER) of the optical
links. In addition, lowering the power consumption of optical transceivers contributes to the
overall reduction of the system power budget.
(系统自动生成,下载前可以参看下载内容)
下载文件列表
TEL02_2.pdf