current dac based regulator for nvm
TRANSCRIPT
CURRENT DAC BASED REGULATOR FOR NVM
PRESENTED BY
-BHAWANA SINGH NIRWAN
CONTENTS
• Introduction
• Flash memory concerns
• Phase change memories
• Voltage regulator topologies
• Proposed regulator
• Reference circuit
• Conclusion
• References
NVM MARKET
NVM Technology Applications
Industry and
TransportationMobile Phones
Mass Storage
Memory
Embedded
MCU for Smart
Cards
FLASH MEMORY CONCERN
• Scaling technology
• Less charge on floating gate
CG
DS
B
CG
DS
B B
S
CG
D
- - - - - - -
- - - -- - -
NVM ALTERNATIVES
• Magnetic RAM (MRAM)
• FeRAM
• PCM
(Select
Transistor)
I
t
IRESET
ISET
TSETTRESET
PCM
VOLTAGE REGULATION FOR NVM
VOLTAGE REGULATION SCHEME
Write Driver
(WD) Regulator
Column
Decoding
Regulator
Row Decoding
Regulator
To supply WDs at 4.4 V
Column Decoder supply, 3.5 V
Row Decoder supply, 2.5 V
VOLTAGE REGULATORS
Voltage Based design
Vout = Vbg(1 + R_var/R_fix)
Current Based design
Vout = Vbg + I_var * R_fix
I_var = Vbg/R
BASIC CURRENT MODE REGULATOR (ABSTRACT VIEW)
Error amplifier: three-stage op-amp
Current DAC modularity: 1 µA
Vbg: 1.2 V
DESIGN APPROACH FOR ERROR AMPLIFIER
Differential
Input amplifier,
single ended
output
Level Shift,
Voltage to current
conversion stage
Output StageVa
Vb
Folded Cascode
stage
Common source
stage
Push-pull
stage
Vout
ERROR AMPLIFIER DESIGN
Vrefn & Vrefp: Used from reference current mirror
Vbiasn = VGS7 + (VGS9 – VTH9) = VGS8 + (VGS10 – VTH10)
Mb
ERROR AMPLIFIER DESIGN
Association of poles with nodes
BIASING CIRCUIT
REFERENCES
[1] A. L. Lacaita, ‘‘Physics and Performance of Phase Change Memories,’’ SISPAD, pages 267-270, Sept. 2005.
[2] Varesi, E., et al. "Advances in Phase Change Memory Technology."European Phase Change and Ovonics Symposium, 2004.
[3] G. De Sandre et al., “A 4 Mb LV MOS-Selected Embedded Phase Change Memory in 90nm Standard CMOS Technology,” IJSSC, vol.46, no. 1,
January, 2011.
[4] G. De Sandre et al., “Program Circuit for a Phase Change Memory Array with 2 MB/s Write Throughput for Embedded Applications,” IEEE,
2008.
[5] Ayman Fayed and Mohammed Ismail, Adaptive Techniques for Mixed Signal System on Chip, Springer, Sept. 2006.
[6] Yuhua Cheng, “The Influence and Modelling of Process Variations and Device Mismatch for Analog/RF Circuit Design,” 4th IEEE International Caracas
Conference on Devices, Circuits and Systems, 17-19 April, 2002.
[7] Massimiliano Frulio, Stefano Sivero, Simone Bartoli and Sabina Mognoni, “DAC-Based Voltage Regulator for Flash Memory Array,”
US2003/028479, March 25, 2004.
[8] Joao Ramos, Michiel Steyaert, “Three Stage Amplifier With Positive Feedback Compensation Scheme,” IEEE Conference on Custom
Integrated Circuits, 2002.
REFERENCES
[9] Saeed Reza Afrancheh, Mohammad Reza Arazm, Ali Reza Sahab, Hamid Reza Afrancheh, “Design Procedure for Settling Time
Minimization in Three-Stage RNMC Amplifiers,” IEEE EUROCON, pages 1-4, April 2011.
[10] P. E. Allen and D. R. Holberg, “CMOS Operational Amplifiers,” in CMOS Analog Circuit Design, 2nd Ed., Oxford
UniversityPress, 2002.
[11] BehzadRazavi, “Operational Amplifiers,” in Design of Analog CMOS Integrated Circuits,McGraw-Hill, Inc., New York, USA, Ed. 2002.
[12] G. Cappuccino, F. A. Amoroso, A. Pugliese, “Class-AB Output Stage Design For High Speed Three-Stage Op-Amps,” IEEE ICECS,
pages 1-4, Dec. 2009.
[13] Anshu Gupta, U.B.S. Chandrawat, D. K. Mishra, R. Khatri and Preet Jain, “A Two Stage and Three Stage CMOS OPAMP
with Fast Settling, High DC Gain and Low Power Designed in 180nm Technology,” IEEE, 2010.
[14] Gaetano Palumbo and Salvatore Pennisi, “Design Methodology and Advances in Nested-Miller Compensation,” IEEE Transactions on
Circuits and Systems-I, vol. 49, no. 7, July 2002.
[15] Wachirapunya Punyawong, Worawat SA-Ngiamvibool, Apinan Aurasopon, Saweth Hongprasit, ‘‘An Improvement of CMOS
Voltage Reference,’’ PRZEGLAD ELEKTROTECHNICZNY, June 2013.
THANK YOU