31 research outputs found
Optical terabit transmitter and receiver based on passive polymer and InP technology for high-speed optical connectivity between datacenters
We demonstrate the hybrid integration of a multi-format tunable transmitter and a coherent optical receiver based on optical polymers and InP electronics and photonics for next generation metro and core optical networks. The transmitter comprises an array of two InP Mach-Zehnder modulators (MZMs) with 42 GHz bandwidth and two passive PolyBoards at the back- and front-end of the device. The back-end PolyBoard integrates an InP gain chip, a Bragg grating and a phase section on the polymer substrate capable of 22 nm wavelength tunability inside the C-band and optical waveguides that guide the light to the inputs of the two InP MZMs. The front-end PolyBoard provides the optical waveguides for combing the In-phase and Quadrature-phase modulated signals via an integrated thermo-optic phase shifter for applying the pi/2 phase-shift at the lower arm and a 3-dB optical coupler at the output. Two InP-double heterojunction bipolar transistor (InP-DHBT) 3-bit power digital-to-analog converters (DACs) are hybridly integrated at either side of the MZM array chip in order to drive the IQ transmitter with QPSK, 16-QAM and 64-QAM encoded signals. The coherent receiver is based on the other side on a PolyBoard, which integrates an InP gain chip and a monolithic Bragg grating for the formation of the local oscillator laser, and a monolithic 90° optical hybrid. This PolyBoard is further integrated with a 4-fold InP photodiode array chip with more than 80 GHz bandwidth and two high-speed InP-DHBT transimpedance amplifiers (TIAs) with automatic gain control. The transmitter and the receiver have been experimentally evaluated at 25Gbaud over 100 km for mQAM modulation showing bit-error-rate (BER) performance performance below FEC limit
Краiны-асноўныя знешнегандлёвыя партнёры Рэспублiкi Беларусь
Секция II. Современные тенденции и проблемы в мировой экономике. Внешнеэкономическое сотрудничество Республики Беларус
InP HBT XOR and phase-detector for 40 Gbit/s clock and data recovery (CDR)
International audienceHigh-speed XOR and phase-detector circuit necessary for clock and data recovery were designed and fabricated in a self-aligned InP DHBT technology. In the paper, we present the circuit design with the special highlight of the architecture choice and design challenges. Measurements results of fabricated circuits are shown