Title :
Design of CMOS IO drivers with less sensitivity to process, voltage, and temperature variations
Author :
Esch, Gerald, Jr. ; Chen, Tom
Author_Institution :
ASIC Design Lab., Agilent Technol., Fort Collins, CO, USA
Abstract :
Matching I/O driver output resistance to transmission line impedance is critical for high speed I/O operation in source series termination environments. Tuning driver output resistance can be accomplished through the use of calibration circuitry. Under ideal conditions, calibration circuitry can properly calibrate an I/O driver. Operating in an environment with die process, voltage and temperature variations, that same calibration circuitry may perform improperly. This paper presents an I/O driver design that is less sensitive to process, voltage and temperature variations. The proposed driver design provides a near linear, or flat, output resistance response verses output voltageMatching I/O driver output resistance to transmission line impedance is critical for high speed I/O operation in source series termination environments. Tuning driver output resistance can be accomplished through the use of calibration circuitry. Under ideal conditions, calibration circuitry can properly calibrate an I/O driver. Operating in an environment with die process, voltage and temperature variations, that same calibration circuitry may perform improperly. This paper presents an I/O driver design that is less sensitive to process, voltage and temperature variations. The proposed driver design provides a near linear, or flat, output resistance response verses output voltage.
Keywords :
CMOS integrated circuits; calibration; driver circuits; electric resistance; high-speed integrated circuits; CMOS; I/O drivers; calibration circuitry; complementary metal-oxide-semiconductor; driver output resistance; high speed integrated circuits; input-output drivers; process variations; sensitivity; temperature variations; transmission line impedance; voltage variations; Application specific integrated circuits; Bandwidth; CMOS process; Calibration; Driver circuits; Electric resistance; Frequency; Impedance; Temperature sensors; Voltage;
Conference_Titel :
Electronic Design, Test and Applications, Proceedings. DELTA 2004. Second IEEE International Workshop on
Conference_Location :
Perth, WA, Australia
Print_ISBN :
0-7695-2081-2
DOI :
10.1109/DELTA.2004.10006
