A CMOS Analog Front-end Receiver with Desensitization to Input Capacitance for Broadband Optical Wireless Communication

Line-of-sight optical wireless channels are emerging as a promising broadband wireless access technology. This paper describes a front-end transimpedance amplifier (TIA) that is designed to overcome challenges faced by high-speed optical wireless links requiring receivers with wide field-of-view (FOV) and high dynamic range for signal acquisition/tracking. This transimpedance amplifier employs a capacitive feedback configuration, with a selfbiased automatic gain control (AGC) circuit to increase the input dynamic range. The transimpedance amplifier is designed for integration with wide FOV detectors with associated capacitance up to 5pF and its performance is insensitive (within 5%) to an order of magnitude variation in input capacitance. The self-biased AGC allows 42dB dynamic range in received optical power to accommodate varying link ranges and different optical wireless (OW) system configurations. A test chip was implemented in a lowcost 0.5- ¹ m CMOS process and achieves a maximum TIA gain of 52dB­ , -3dB bandwidth of 523MHz at 5pF input capacitance, and variable TIA gain from 52dB­ to 36dB­ without instability. Noise measurements show input-referred noise current spectral density of 22pA/ p Hz for 5pF input capacitance. Optical measurements show good eye diagrams at 750Mb/s. The power dissipation is 53mW from dual 3.3V and 1.8V supply voltages.

[1]  Hans-Martin Rein,et al.  High-gain SiGe transimpedance amplifier array for a 12/spl times/10 Gb/s parallel optical-fiber link , 2003 .

[2]  Sang-Gug Lee,et al.  A burst-mode receiver for 1.25-Gb/s ethernet PON with AGC and internally created reset signal , 2004, IEEE Journal of Solid-State Circuits.

[3]  Wei-Zen Chen,et al.  A 1.8-V 10-Gb/s fully integrated CMOS optical receiver analog front-end , 2005, IEEE Journal of Solid-State Circuits.

[4]  V.M. Joyner,et al.  A CMOS Imaging Diversity Receiver Chip with a Flip-Chip Integrated Detector Array for Optical Wireless Links , 2006, LEOS 2006 - 19th Annual Meeting of the IEEE Lasers and Electro-Optics Society.

[5]  J.W. Kwon,et al.  Low-cost and high-performance APD burst-mode receiver employing commercial TIA for 1.25-gb/s EPON , 2005, IEEE Photonics Technology Letters.

[6]  Jaafar M. H. Elmirghani,et al.  Three-segment pyramidal fly-eye detection antenna for optical wireless communication systems under the constraint of ambient noise introduced by highly directive spotlights , 2000, Int. J. Commun. Syst..

[7]  David A. Johns,et al.  A CMOS optical preamplifier for wireless infrared communications , 1999 .

[8]  D.J. Edwards,et al.  Integrated transceivers for optical wireless communications , 2005, IEEE Journal of Selected Topics in Quantum Electronics.

[9]  Tsung-Shuen Hung,et al.  A CMOS infrared wireless optical receiver front-end with a variable-gain fully-differential transimpedance amplifier , 2005, IEEE Transactions on Consumer Electronics.

[10]  Sung Min Park,et al.  A packaged low-noise high-speed regulated cascode transimpedance amplifier using a 0.6µm N-well CMOS technology , 2000, Proceedings of the 26th European Solid-State Circuits Conference.

[11]  A. Shunt bootstrapping technique to improve bandwidth of transimpedance amplifiers , 2008 .

[12]  Christofer Toumazou,et al.  Wideband low noise CMOS transimpedance amplifier for gigaHertz operation , 1996 .

[13]  L.A.D. van den Broeke,et al.  Wide-band integrated optical receiver with improved dynamic range using a current switch at the input , 1993 .

[14]  Stephen P. Boyd,et al.  Bandwidth extension in CMOS with optimized on-chip inductors , 2000, IEEE Journal of Solid-State Circuits.

[15]  Juha Kostamovaara,et al.  A wide dynamic range receiver channel for a pulsed time-of-flight laser radar , 2001 .

[16]  Behzad Razavi,et al.  Ta 9.7 a 622mb/s 4.5pa/√ √ √ √ √hz Cmos Transimpedance Amplifier* , 2000 .