This paper describes the design of a 12-bit digital-to-analog converter for a wireline modem chip implemented in a 0.13μm digital CMOS technology. Transistor-level simulations from extracted layout at the nominal modem data rate of 8OMS/s show an Spurious-Free Dynamic-Range (SFDR) better than 62dB at Nyquist rate under industrial operation conditions (-40 to 85º
temperature range and ±10% supply variations) and for all technology process corners. Additionally, the converter achieves a
Multi-Tone Power Ratio (MTPR) higher than 59dB for different Discrete MultiTone (DMT) test patterns consisting of 1536 carriers that fall in the Nyquist band. Simulation results at a higher data rate of 200MS/s are also shown in the paper. The converter dissipates less than 150mW from a mixed 3.3/1.2V supply and occupies
less than 1.7mm2.
This work has been supported by the MEDEA+
(Al10-MIDAS) and TIC2003-02355 Projects.
Peer reviewed