A low-power, short-wavelength eight-channel monolithically integrated photo
receiver array, based on SiGe/Si heterojunction bipolar transistors, is dem
onstrated. The photoreceiver consists of a photodiode, three-stage transimp
edance amplifier, and passive elements for feedback, biasing and impedance
matching. The photodiode and transistors are grown by molecular beam epitax
y in a single step. The p-i-n photodiode exhibits a responsivity of 0.3A/W
and a bandwidth of 0.8 GHz at lambda = 0.88 mum. The three-stage transimped
ance amplifier demonstrates a transimpedance gain of 43 dB Omega and a -3 d
b bandwidth of 5.5 GHz, A single channel monolithically integrated photorec
eiver consumes a power of 6 mW and demonstrates an optical bandwidth of 0.8
GHz, Eight-channel photoreceiver arrays are designed for massively paralle
l applications where low power dissipation and low crosstalk are required.
The array is on a 250-mum pitch and can be easily scaled to much higher den
sity, Large signal operation up to 1 Gb/s is achieved with crosstalk less t
han -26 dB, A scheme for time-to-space division multiplexing is proposed an
d demonstrated with the photoreceiver array.