10 Gbit/s transmission over 50 km nonzero dispersion-shifted fibreusing 1.3 μm directly modulated uncooled transmitters

A 1.3 μm uncooled transmitter with wide-open eye diagrams at laser temperatures of 20, 50, and 85°C is presented. Using this transmitter, it is demonstrated that 10 Gbit/s transmission is possible over a 50 km nonzero dispersion-shifted Lucent TrueWave-RS fibre. This result is compared with transmission over a 55 km standard singlemode fibre     

A 10-Gb/s laser/modulator driver IC with a dual-mode activelymatched output buffer

A laser/modulator driver IC for 10-Gb/s-SONET OC-192-fiber optic transmitters is described. Depending on the user application, the IC is capable of driving more than 100 mA of current into a laser diode or over 50 mA into an electro-absorption or Mach-Zehnder modulator. Rise and fall times below 20 pS are achieved. The driver employs a novel dual-mode actively matched output buffer that provides a dc-coupled back termination of either 25 or 50 Ω. Compared to an output buffer with a resistive termination, this buffer dissipates only half as much power. In addition, the buffer has the the ability to reject external bias and will therefore not load bias sources used to set laser threshold currents and modulator offset voltages. The low power consumption makes the IC most suitable for co-packaging with uncooled lasers and electro-absorption modulators. The driver is fabricated in a 0.25-μm gate length production GaAs PHEMT process with substrate thru vias, thin-film resistors, and MIM capacitors     

A PLL-based 2.5-Gb/s GaAs clock and data regenerator IC

A GaAs IC that performs clock recovery and data retiming functions in 2.5-Gb/s fiber-optic communication systems is presented. Rather than using surface acoustic wave (SAW) filter technology, the IC employs a frequency- and phase-lock loop (FPLL) to recover a stable clock from pseudo-random non-return-to-zero (NRZ) data. The IC is mounted on a 1-in×1-in ceramic substrate along with a companion Si bipolar chip that contains a loop filter and acquisition circuitry. At the synchronous optical network (SONET) OC-48 rate of 2.488 Gb/s, the circuit meets requirements for jitter tolerance, jitter transfer, and jitter generation. The data input ambiguity is 25 mV while the recovered clock has less than 2° rms edge jitter. The circuit functions up to 4 Gb/s with a 40-mV input ambiguity and 2° RMS clock jitter. Total current consumption from a single 5.2-V supply is 250 mA