Abstract
An ac-coupled burst-mode receiver (B-Rx) for 10-Gbit/s class PON systems
that uses a novel baseline-wander common-mode-rejection (BLW-CMR) technique
and an inverted distortion technique is proposed and demonstrated. The
realization of 10-Gbit/s class PON systems requires the development of a
B-Rx with high sensitivity, a wide dynamic range, and a fast response for
handling the burst-mode data. The BLW-CMR technique can cancel out the
transient responses of capacitors at an ac-coupled interface, and the
inverted distortion technique can reduce the duty-cycle distortion caused by
the reference voltage wandering at long consecutive identical digits (CIDs)
with a fast average detector. A B-Rx using these techniques can realize high
receiver sensitivity, a wide dynamic range, and an instantaneous response
with a high tolerance to CIDs. We achieved a settling time of less than 150
ns, a sensitivity of ${-}29.8$ dBm, and a dynamic range of 24.8 dB at a bit error rate of $10^{- 3}$ with a $2^{31}-1$ pseudo random bit sequence for a burst-mode optical input at
10.3125 Gbit/s.
© 2010 IEEE
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