Title :
A 32-GS/s 6-Bit Double-Sampling DAC in InP HBT Technology
Author :
Nagatani, Munehiko ; Nosaka, Hideyuki ; Yamanaka, Shogo ; Sano, Kimikazu ; Murata, Koichi
Author_Institution :
NTT Photonics Labs., NTT Corp., Atsugi, Japan
Abstract :
This paper describes the circuit design and measured performance of a high-speed digital-to-analog converter (DAC) for a coherent optical transceiver based on digital signal processing (DSP). To achieve a high sampling rate, a novel double-sampling technique was devised. A 6-bit DAC test chip was fabricated with InP HBT technology, which yields a peak ft of 175 GHz and a peak fmax of 260 GHz. Measured DNL and INL were within +0.49/-0.17 LSB and +0.97/-0.06 LSB, respectively. Measured SFDR was 45.0 dB for a sinusoidal output of 72.5 MHz at a sampling rate of 13.5 GS/s, which is the limit of our measurement setup. Ramp-wave output at a sampling rate of 32 GS/s was obtained. Total power consumption was 1.4 W with a supply voltage of -4.0 V. To our knowledge, this is the first 6-bit DAC that can operate at a sampling rate of over 30 GS/s.
Keywords :
III-V semiconductors; digital signal processing chips; digital-analogue conversion; field effect MIMIC; indium compounds; transceivers; HBT technology; InP; circuit design; coherent optical transceiver; differential nonlinearity; digital signal processing; double-sampling DAC; high-speed digital-to-analog converter; integral nonlinearity; power 1.4 W; ramp-wave output; sinusoidal output; spurious-free dynamic range; storage capacity 6 bit; voltage -4.0 V; Circuit synthesis; Digital signal processing chips; Digital-analog conversion; Heterojunction bipolar transistors; High speed optical techniques; Indium phosphide; Optical signal processing; Sampling methods; Semiconductor device measurement; Transceivers;
Conference_Titel :
Compound Semiconductor Integrated Circuit Symposium, 2009. CISC 2009. Annual IEEE
Conference_Location :
Greensboro, NC
Print_ISBN :
978-1-4244-5191-3
Electronic_ISBN :
1550-8781
DOI :
10.1109/csics.2009.5315628
